MX2013004459A - Bis-azo colorants for use as bluing agents. - Google Patents
Bis-azo colorants for use as bluing agents.Info
- Publication number
- MX2013004459A MX2013004459A MX2013004459A MX2013004459A MX2013004459A MX 2013004459 A MX2013004459 A MX 2013004459A MX 2013004459 A MX2013004459 A MX 2013004459A MX 2013004459 A MX2013004459 A MX 2013004459A MX 2013004459 A MX2013004459 A MX 2013004459A
- Authority
- MX
- Mexico
- Prior art keywords
- alkyl
- group
- substituted
- composition
- bluing agent
- Prior art date
Links
- 239000003795 chemical substances by application Substances 0.000 title claims abstract description 123
- 125000000664 diazo group Chemical group [N-]=[N+]=[*] 0.000 title abstract description 20
- 239000003086 colorant Substances 0.000 title abstract description 6
- 239000000203 mixture Substances 0.000 claims abstract description 251
- 239000004744 fabric Substances 0.000 claims abstract description 81
- 239000003599 detergent Substances 0.000 claims description 88
- 125000000217 alkyl group Chemical group 0.000 claims description 74
- 229920000642 polymer Polymers 0.000 claims description 69
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 68
- 239000000975 dye Substances 0.000 claims description 60
- 239000007788 liquid Substances 0.000 claims description 57
- 239000007844 bleaching agent Substances 0.000 claims description 49
- 125000005529 alkyleneoxy group Chemical group 0.000 claims description 33
- 150000001875 compounds Chemical class 0.000 claims description 27
- 238000005406 washing Methods 0.000 claims description 27
- 125000001997 phenyl group Chemical group [H]C1=C([H])C([H])=C(*)C([H])=C1[H] 0.000 claims description 25
- 125000003545 alkoxy group Chemical group 0.000 claims description 24
- 229910052739 hydrogen Inorganic materials 0.000 claims description 20
- 239000001257 hydrogen Substances 0.000 claims description 17
- 125000004435 hydrogen atom Chemical group [H]* 0.000 claims description 17
- 239000000987 azo dye Substances 0.000 claims description 16
- 125000003277 amino group Chemical group 0.000 claims description 15
- 239000004615 ingredient Substances 0.000 claims description 15
- 238000010412 laundry washing Methods 0.000 claims description 12
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- 125000002924 primary amino group Chemical group [H]N([H])* 0.000 claims description 10
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- 125000003118 aryl group Chemical group 0.000 claims description 9
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D3/00—Other compounding ingredients of detergent compositions covered in group C11D1/00
- C11D3/40—Dyes ; Pigments
- C11D3/42—Brightening agents ; Blueing agents
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B31/00—Disazo and polyazo dyes of the type A->B->C, A->B->C->D, or the like, prepared by diazotising and coupling
- C09B31/02—Disazo dyes
- C09B31/06—Disazo dyes from a coupling component "C" containing a directive hydroxyl group
- C09B31/068—Naphthols
- C09B31/072—Naphthols containing acid groups, e.g. —CO2H, —SO3H, —PO3H2, —OSO3H, —OPO2H2; Salts thereof
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B31/00—Disazo and polyazo dyes of the type A->B->C, A->B->C->D, or the like, prepared by diazotising and coupling
- C09B31/02—Disazo dyes
- C09B31/08—Disazo dyes from a coupling component "C" containing directive hydroxyl and amino groups
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B69/00—Dyes not provided for by a single group of this subclass
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B69/00—Dyes not provided for by a single group of this subclass
- C09B69/10—Polymeric dyes; Reaction products of dyes with monomers or with macromolecular compounds
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09B—ORGANIC DYES OR CLOSELY-RELATED COMPOUNDS FOR PRODUCING DYES, e.g. PIGMENTS; MORDANTS; LAKES
- C09B69/00—Dyes not provided for by a single group of this subclass
- C09B69/10—Polymeric dyes; Reaction products of dyes with monomers or with macromolecular compounds
- C09B69/106—Polymeric dyes; Reaction products of dyes with monomers or with macromolecular compounds containing an azo dye
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- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D3/00—Other compounding ingredients of detergent compositions covered in group C11D1/00
- C11D3/16—Organic compounds
- C11D3/34—Organic compounds containing sulfur
- C11D3/349—Organic compounds containing sulfur additionally containing nitrogen atoms, e.g. nitro, nitroso, amino, imino, nitrilo, nitrile groups containing compounds or their derivatives or thio urea
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- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D2111/00—Cleaning compositions characterised by the objects to be cleaned; Cleaning compositions characterised by non-standard cleaning or washing processes
- C11D2111/10—Objects to be cleaned
- C11D2111/12—Soft surfaces, e.g. textile
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- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Oil, Petroleum & Natural Gas (AREA)
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- Detergent Compositions (AREA)
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Abstract
This invention relates to bis-azo colorants for use as bluing agents, laundry care compositions comprising bis-azo colorants that may serve as bluing agents, processes for making such bluing agents and laundry care compositions and methods of using the same. The bluing agents are generally comprised of at least two components: at least one chromophore component and at least one polymeric component. These bluing agents are advantageous in providing a whitening effect to fabrics, while not building up over time and causing undesirable blue discoloration to the treated fabrics.
Description
BIS-AZOIC DYES FOR USE AS AZULATED AGENTS
TECHNICAL FIELD
This invention relates to bis-azo dyes for use as bluing agents, laundry-washing compositions comprising bis-azo dyes which can act as bluing agents, processes for making bluing agents and compositions for washing clothes and methods of using these. Generally, the bluing agents are composed, at least, of two components: at least one chromophore component and at least one polymer component. These bluing agents are beneficial in that they provide a bleaching effect to the fabrics, without cumulative effect over time and without causing unwanted blue discoloration of the treated fabrics.
BACKGROUND
As textile substrates age, their color tends to fade or yellow due to exposure to light, air, dirt and natural degradation of the fibers comprising the substrates. Therefore, the purpose of the bluing agents is generally to visually rekindle these textile substrates and counteract the discoloration and yellowing of the substrates. Typically, bluing agents can be found in laundry detergents, fabric softeners or rinsing aids and, therefore, are applied to textile substrates during the washing process. However, it is important that the bluing agents act to rejuvenate the treated textile substrates without causing
unwanted spots on these. Specifically, cellulosic substrates tend to exhibit a yellowish tint after being exposed to light, air and / or dirt. This yellowish tint is usually difficult to reverse with the usual washing procedures. Accordingly, there is a need to improve bluing agents that are capable of removing the yellowish color exhibited by cellulosic substrates over time. The use of these improved bluing agents will make it possible to extend the useful life of textile substrates, such as garments, table linen, etc. Unfortunately, current bluing agents do not provide tonalizing benefits after a single course of treatment and / or accumulate to an undesired level, so they excessively stain the treated site after multiple treatment cycles.
The present invention offers advantages over previous efforts in this area, since it exploits the compounds with a substituent other than sulfonic acid in the terminal phenyl ring of the bis-azoic structure. It is known that sulfonic acid groups promote the deposition and staining of acid dyes in cellulosic fabrics. In addition, these groups are essential for the solubility and compatibility of the dyes in the laundry detergent formulations. Although it is necessary that the bluing agents are deposited with the washing water, it is not desired that they stain the fabric when they come into contact unintentionally or when they accumulate over time, that is, what they stain excessively. Applicants recognized that modification or replacement of the sulfonic acid group at the phenyl end of bis-azo by a non-ionic solubilization group allows adequate deposition of bis-azo but attenuates the tendencies of staining and excessive dyeing and, thus, it allows the bluing agent to be compatible in the laundry washing formulations. In summary, the applicants recognized the origin of the current tonality deficiencies and, in the present invention, provide the solution for said problem. In addition, the toner compounds described in the present invention absorb light at a suitable wavelength to neutralize the yellowing of the cellulose substrates. These compounds ideally act as bluing agents for cellulosic substrates and can be incorporated into laundry washing compositions for consumer use. 1
BRIEF DESCRIPTION OF THE INVENTION
This invention relates to laundry-washing compositions comprising bis-azo dyes that can act as bluing agents, the processes for making such compositions for washing clothes and their methods of use. Generally, the bluing agents are composed, at least, of two components: at least one chromophore component and at least one polymer component. These bluing agents are beneficial in that they provide a bleaching effect to the fabrics, without cumulative effect over time and without causing unwanted blue discoloration of the treated fabrics.
DETAILED DESCRIPTION OF THE INVENTION
As used in the present description, the term "alkoxy" is intended to include C, -C6 alkoxy and alkoxy derivatives of polyols with repeating units, such as butylene oxide, glycidol oxide, ethylene oxide or propylene oxide.
As used in the present description, the terms "alkyl" and "alkyl-capped" include C6-C alkyl groups.
The terms "ethylene oxide", "propylene oxide" and "butylene oxide" are shown in the present description with their typical designation of "EO", "PO" and "BO", respectively.
As used in the present description, the term "laundry care composition" includes, unless otherwise indicated, washing agents and / or fabric treatment compositions in granular, powder, liquid form, in gel, in paste, in bar of unit dose and / or in flakes.
As used in the present description, the term "fabric treatment composition" includes, unless otherwise indicated, fabric softening compositions, fabric improver compositions, fabric freshening compositions and combinations thereof. . These compositions may, but do not necessarily have to be, compositions that are used in the rinse.
As used in the present description, the phrase "cellulosic substrates" is intended to include any substrate comprising at least a large part, by weight, of cellulose. Cellulose can be found in wood, cotton, linen, jute and hemp. The cellulosic substrates may be in the form of powders, fibers, pulp and articles formed from powders, fibers and pulp. Cellulosic fibers include, but are not limited to, cotton, rayon (regenerated cellulose), acetate (cellulose acetate), triacetate (cellulose triacetate), and mixtures thereof. Articles formed from cellulosic fibers include textile articles, such as fabrics. Articles formed from pulp include paper.
As used in the present description, the articles, including "the", "the" "an" "a" when used in a claim, should be understood to mean one or more of what is claimed or described.
As used in the present description, the terms "includes", "include" and "including / n" are not limiting.
The test methods described in the Test Methods section of the present application should be used to determine the respective values of the parameters of the Applicants' inventions.
Unless otherwise indicated, all levels of the component or composition refer to the active portion of that component or composition, and exclude impurities, for example, residual solvents or by-products, which may be present in the sources commercially available of said components or compositions.
All percentages and proportions are given by weight unless otherwise indicated. All percentages and proportions are calculated based on the total composition unless otherwise indicated.
It will be understood that each maximum numerical limitation given in this specification will include any lower numerical limitation, as if the lower numerical limitations had been explicitly noted in the present description. Any minimum numerical limitation given in this specification shall include any major numerical limitations, as if said larger numerical limitations had been noted explicitly in the present description. All numerical ranges cited in this description will include all minor intervals that fall within the larger numerical ranges as if all minor numerical ranges had been explicitly cited in the present description.
All the cited documents are, are incorporated in the relevant part, as reference in the present description; the mention of any document should not be construed as an admission that it corresponds to a preceding industry with respect to the present invention.
Suitable bluing agents
The bluing agents used in the laundry care compositions of the present invention can be polymeric dyes, pigments or dyes, preferably, dyes comprising a chromophoric constituent and a polymeric constituent. The chromophore constituent is characterized in that it absorbs light in the wavelength range of blue, red, violet, purple, or combinations of these, when exposed to light. In one aspect, the chromophore constituent exhibits a maximum absorbance spectrum of about 520 nanometers to about 640 nanometers in water and / or methanol and, in another aspect, from about 560 nanometers to about 610 nanometers in water and / or methanol.
Examples of suitable polymeric constituents include polyoxyalkylene chains having multiple repeating units. In one aspect, the polymeric constituents include polyoxyalkylene chains having from 2 to about 30 repeating units, from 2 to about 20 repeating units, from 2 to about 10 repeating units or even from about 3 or 4 to about 6 units. of repetition. Non-limiting examples of polyoxyalkylene chains include ethylene oxide, propylene oxide, glycidol, butylene oxide and mixtures thereof.
In one aspect, the bluing agent that is used in the laundry washing compositions of the present invention may have the following general structure (I):
(I)
where:
and R2 are independently H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, urea, amido or acetoamido;
R3 is a substituent of aryl group which may be a substituted phenyl or naphthyl entity;
X is an oxygen, nitrogen or sulfonamide group further substituted with a substituted or unsubstituted amino, or a substituted or unsubstituted sulfonamide group, wherein the substituents are selected from the group consisting of alkyl, alkyleneoxy, polyalkylenoxy or phenyl entities, wherein the phenyl group can be further substituted with alkyl, alkyleneoxy or polyalkylenoxy entities.
Preferably, and R2 are independently selected from the group consisting of H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl and amido cap. O, and R2 are independently H, alkyl, alkoxy, alkyleneoxy, polyalkylenoxy or acetoamido. In a preferred aspect, RT is an alkoxy group and R2 is an alkyl or alkoxy group. In a preferred aspect, X is an oxygen, nitrogen or sulfonamide group further substituted by alkyl, alkyleneoxy, polyalkylenoxy or phenyl entities, wherein the phenyl group may be further substituted with alkyl, alkylenoxy or polyalkylenoxy entities. In a preferred aspect, X is a substituted group comprising a sulfonamide entity and, optionally, an alkyl and / or aryl entity, and wherein the substituent group comprises at least one alkyleneoxy chain comprising at least 4 alkylenoxy entities.
In another aspect, suitable bluing agents may have the following general structure (II):
(II)
where:
R t and R 2 are independently H, alkyl, alkoxy or acetamido; W is a substituted amino entity;
X is a hydrogen, an amino group or an amino group substituted with an acyl group;
And it is a hydrogen or a sulfonic acid entity; Y
Z is a sulfonic acid entity or an amino group substituted with a phenyl group.
In additional aspects, suitable bluing agents may have the following general structure (III):
(III)
is alkoxy;
R2 is alkyl;
W is a substituted amino entity;
X is a hydrogen, an amino group or an amino group substituted with an acyl group;
And it is a hydrogen or a sulfonic acid entity; Y
Z is a sulfonic acid entity or an amino group substituted with a phenyl group.
In one aspect, said bluing agent may comprise:
(a) at least one chromophore component comprising a bioazoic dye, and
(b) at least one polymer component or substituted sulfonamide component;
Bluish entity has the following structure:
Ri and R2 are independently H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, urea or amido;
R3 is a substituent of aryl group which may be a substituted phenyl or naphthyl entity;
X is a substituted oxygen, a substituted or unsubstituted amino, or a substituted or unsubstituted sulfonamide group wherein the substituents are selected from the group consisting of alkyl, alkylenoxy, polyalkylenoxy or phenyl entities, wherein the phenyl group may be further substituted with alkyl, alkyleneoxy or polyalkylenoxy entities.
In one aspect, said bluing agent may comprise a polyoxyalkylene chain having from 2 to about 30 repeating units.
In one aspect, said bluing agent may comprise a polyoxyalkylene chain having from 2 to about 20 repeating units.
In one aspect, said bluing agent may comprise a polyoxyalkylene chain having from 2 to about 10 repeating units.
In one aspect, the bluing agent may comprise a polyoxyalkylene chain having from about 4 to about 6 repeating units.
In one aspect, the bluing agent may comprise an alkoxylated bis-azoic polymer dye.
In one aspect, the chromophore of the bluing agent may exhibit a maximum absorbance spectrum in water of about 520 nanometers to about 640 nanometers.
In one aspect, said chromophore of the bluing agent may exhibit a maximum absorbance spectrum in water of about 560 nanometers to about 610 nanometers.
In one aspect, said bluing agent may exhibit an angle of
absolute tonality in a range of 265 ° to 310 °.
In said aspect, the bluing agent may exhibit an absolute tonality angle in a range of 273 ° to 287 °.
In one aspect, the bluing agent may have the following structure:
where:
R, and R2 are independently H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, or amido;
W is a substituted amino entity;
U is a hydrogen, an amino group or an amino group substituted with an acyl group;
And it is a hydrogen or a sulfonic acid entity; Y
Z is a sulfonic acid entity or an amino group substituted with a phenyl group.
In one aspect of said bluing agent, R is alkoxy and R 2 is alkyl. In one aspect of the invention, suitable bluing agents include, but are not limited to the following structures:
Formula BA1 (Example 14)
Formula BA2 (Example 9)
Formula BA4 (Example 1) 1
Formula BA5 (Example 6)
Formula BA7 (Example 19)
Formula BA8
Formula BA1 1 (Example 10)
Formula BA12 (Example 8)
Formula BA13 (Example 2)
Formula BA 4 (Example 7)
Formula BA 5 (Example 12)
Formula BA16
Formula BA17 (Example 13)
Formula A18 (Example 1 1)
Formula BA20
Formula BA24
Formula BA28 (Example 15)
Formula BA31 (Example 3)
Formula BA32
Formula BA34 (Example 17)
Formula BA36
Formula BA39
2
Formula BA42
Formula BA45
Formula BA48
Formula ?? 51
Formula BA55 (Example 16)
Formula BA58 (Example 4)
Formula BA59
Formula BA61 (Example 18)
Formula BA63
Formula BA67 (Example 5)
Formula BA71
Formula BA75
Formula BA79
Formula BA81
Preferred dyes are selected from the group consisting of BA1, BA2, BA3, BA6, BA10, BA1 1, BA12, BA15. BA19, BA20, BA21, BA24, BA28, BA28, BA29, BA30, BA33, BA37, BA38, BA39, BA42, BA46, BA47, BA48, BA51, BA55, BA56, BA57, BA60, BA64, BA65, BA66, BA69, BA73, BA74, BA75 and BA78. Particularly preferred are BA10, BA20, BA51, BA55, BA56, BA57, BA60, BA66, BA69 and BA78.
In the present invention, the bluing agent is further defined as the dye that is typically formulated to be deposited on the fabrics from the wash liquor to provide a relative tonality angle of 220-320 ° in a relevant consumer garment of way to improve the perception of cleaning the fabric. This hue angle can be generated by the specified bluing agent essential only for the invention or by a combination of the essential bluing agent with an additional tinting agent which, together, generate the desired hue angle. The tonalizing agent is typically described as blue or violet. It may be suitable for the tint (s) tint (s) to have a peak absorption wavelength of 550 nm to 650 nm; or from 570 nm to 630 nm. The tonalizing agent can be a
combination of dyes that, taken together, have the visual effect of a single dye for the human eye, whose peak absorption wavelength in polyester is from 550 nm to 650 nm; or from 570 nm to 630 nm. This can be achieved, for example, by mixing a red tint and a blue-green tint to produce a blue or violet hue.
The dyes are typically colored organic molecules soluble in aqueous media containing surfactants. The dyes can be selected from the basic, acid, hydrophobic, direct and polymeric dye classes, as well as dye conjugates. Suitable polymeric tinting dyes are commercially available, for example, through Milliken, Spartanburg, South Carolina, USA. UU
Examples of suitable dyes are Liquitint® DD violet, direct violet 7, direct violet 9, direct violet 1 1, direct violet 26, direct violet 31, direct violet 35, direct violet 40, direct violet 41, direct violet 51, violet direct 66, direct violet 99, acid violet 50, acid blue violet 9, acid violet 17, acid black 1, acid red 17, acid blue 29, violet solvent 13, violet dispersed 27, violet dispersed 26, violet dispersed 28, violet dispersed 63 and scattered violet 77, basic blue 16, basic blue 65, basic blue 66, basic blue 67, basic blue 71, basic blue 159, basic violet 19, basic violet 35, basic violet 38, basic violet 48; basic blue 3, basic blue 75, basic blue 95, basic blue 122, basic blue 124, basic blue 141, thiazolium dyes, blue reactive 19, blue reactive 163, blue reactive 182, blue reactive 96, Liquitint® Violet CT (Milliken , Spartanburg, U.S.A.) and Azo-CM-Cellulose (Megazyme, Bray, Republic of Ireland). Other suitable tonalizing agents are the tonalizing-photobleaching dye conjugates, such as sulfonated zinc phthalocyanine conjugate with direct violet 99. A particularly suitable tinting agent is a combination of acid red 52 and acid blue 80, or the combination of direct violet 9 and solvent violet 13.
A suitable synthesis route for certain bis-azo dyes described in the present description is shown below:
where:
R is selected from the group consisting of alkyl, polyalkylenoxy, phenyl and substituted phenyl, and
R 'is selected from the group consisting of hydrogen, alkyl or alkoxy.
Some other bioazo dyes described in the present description can be prepared in a similar manner by substituting 2- [2- [2- (2-methoxyethoxy) ethoxy] ethoxy] -5-methylbenzeneamine for 2-methoxy-5-methylbenzeneamine or 2 , 5-dimethoxybenzeneamine in the above synthesis scheme.
The base used in the first stage of the reaction can be selected from sodium carbonate, sodium acetate, sodium hydroxide or other cationic salts of these respective bases, and tertiary amines.
Acid hydrolysis can be carried out by using a strong acid such as hydrochloric acid or sulfuric acid.
Alternatively, the bis-azo dyes described in the present invention can be made in accordance with the various processes! known in the industry and / or in accordance with the examples of the present invention. For example, coupling can be carried out by the use of polyalkyleneoxy-substituted aniline compounds derived from known processes from starting materials such as 4-methoxy-2-nitrophenol or 4-methyl-2-nitrophenol, both available from VWR. International, LLC (West Chester, PA, United States).
Compositions for the care of clothes
Any of these bluing agents described in the present specification can be incorporated into laundry care compositions including, but not limited to, laundry detergents and fabric care compositions. Laundry care compositions that include laundry detergents may be in solid, liquid or gel form. These compositions may comprise one or more of these bluing agents and an ingredient for laundry washing. The bluing agents can be added to the substrates by various application techniques. For example, for application to textile substrates containing cellulose, the bluing agent may be included as a component of a laundry detergent. Therefore, the application on a textile substrate containing cellulose actually occurs when the consumer adds laundry detergent in a washing machine. The bluing agent may be present in a laundry detergent composition in an amount of
about 0.0001% to about 10% by weight of the composition, from about 0.0001% to about 5% by weight of the composition, or even from about 0.0001% to about 1% by weight of the composition.
Typically, the laundry detergent composition comprises a surfactant in an amount sufficient to provide the desired cleaning properties. In one aspect, the laundry detergent composition may comprise, depending on the total weight of the laundry detergent composition, from about 5% to about 90% surfactant, from about 5% to about 70% surfactant, or even from about 5% to about 40% surfactant. The surfactant may comprise anionic, non-anionic, cationic, zwitterionic and / or amphoteric surfactants. In one aspect, the detergent composition comprises anionic surfactant, nonionic surfactant, or mixtures thereof.
Fabric care compositions are typically added in the rinse cycle, which takes place after the detergent solution has been used and replaced with the rinse solution in typical laundry processes. The fabric care compositions described in the present invention may comprise an active. fabric softener for use during rinsing and a suitable bluing agent as described in the present specification.
The fabric care composition may comprise, depending on the total weight of the fabric care composition, from about 1% to about 90%, or from about 5% to about 50% of the fabric softening active. The bluing agent may be present in the fabric care composition in an amount from about 0.5 ppb to about 50 ppm, or from about 0.5 ppm to about 30 ppm.
In one aspect, a laundry care composition comprising
an ingredient for washing clothes and a bluing agent, comprising:
(a) at least one chromophore component comprising a bioazoic dye, and
(b) at least one polymer component or substituted sulfonamide component;
wherein the bluing agent has the following structure:
where:
R, and R2 are independently H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, urea or amido;
R3 is a substituent of aryl group which may be a substituted phenyl or naphthyl entity;
X is a substituted oxygen, a substituted or unsubstituted amino, or a substituted or unsubstituted sulfonamide group, wherein the substituents are selected from the group consisting of alkyl, alkylenoxy, polyalkylenoxy or phenyl entities, wherein the phenyl group may be further substituted by alkyl, alkyleneoxy or polyalkylenoxy entities.
In one aspect, said bluing agent comprises a polyoxyalkylene chain having from 2 to about 30 repeating units.
In one aspect, said bluing agent comprises a polyoxyalkylene chain having from 2 to about 20 repeating units.
In one aspect, said bluing agent comprises a polyoxyalkylene chain having from 2 to about 10 repeating units.
In one aspect, the bluing agent comprises a polyoxyalkylene chain having from about 4 to about 6 repeating units. '
In one aspect, the bluing agent comprises an alkoxylated bis-azoic polymer dye.
In one aspect, the chromophore of the bluing agent exhibits a maximum absorbance spectrum in water of about 520 nanometers to about 640 nanometers.
In one aspect, said bluing agent chromophore exhibits a maximum absorbance spectrum in water of about 560 nanometers to about 610 nanometers.
In one aspect, said bluing agent exhibits an absolute tonality angle in a range of 265 ° to 310 °.
In said aspect, the bluing agent exhibits an absolute tonality angle in a range of 273 ° to 287 °.
In one aspect, said bluing agent has the following structure:
where:
R, and R2 are independently H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, or amido;
W is a substituted amino entity;
U is a hydrogen, an amino group or an amino group substituted with an acyl group;
And it is a hydrogen or a sulonic acid entity; Y
Z is a sulfonic acid entity or an amino group substituted with a phenyl group.
In one aspect of said bluing agent, Ri is alkoxy and R 2 is alkyl. Suitable ingredients for the care of clothes
While not essential for the purposes of the present invention, the non-limiting list of laundry care ingredients illustrated hereinafter are suitable for use in laundry care compositions and can be conveniently incorporated into certain aspects of the invention, for example, to help or improve performance, to treat the substrate to be cleaned, or to modify the aesthetic characteristics of the composition, as is the case of perfumes, dyes, dyes, or the like. It is understood that these ingredients are additional to the components previously listed for any specific aspect. The total amount of such additional ingredients may vary, once the amount of dye has been considered, from about 90% to about 99.99999995% by weight of the laundry care composition.
The precise nature of these additional components and the levels of incorporation of these will depend on the physical form of the composition and the nature
of the operation for which they will be used. Suitable ingredients for washing clothes include, but are not limited to, active fabric softeners, polymers, for example, cationic polymers, surfactants, additives, chelating agents, dye transfer inhibiting agents, dispersants, enzymatic enzymes and stabilizers, catalytic materials, bleach activators, polymeric dispersing agents, soil removal / anti-redeposition agents, clay and dirt, polishes, suds suppressors, dyes, perfumes and additional perfume supply systems, structure elasticizing agents, fabric softeners, carriers, hydrotropes, processing aids and / or pigments. In addition to the following description, suitable examples of these other additional components and concentrations of use are found in U.S. Pat. UU num. 5,576,282, 6,306,812 B1 and 6,326,348 B1, which are incorporated by reference.
As mentioned, the ingredients for the care of clothes are not essential in the applicants' clothing care compositions. Therefore, certain aspects of applicants' compositions do not contain one or more of the following additional materials: fabric softening actives, bleach activators, surfactants, additives, chelating agents, dye transfer inhibiting agents, dispersants, enzymes and enzyme stabilizers, catalytic metal complexes, polymeric dispersing agents, agents for the removal / anti-redeposition of clay and dirt, brighteners, suds suppressors, dyes, perfumes and additional perfume supply systems, structure-elasticizing agents, fabric softeners , carriers, hydrotropes, processing aids and / or pigments. However, when one or more additional materials are included, those additional materials may be present as described below:
Surfactants
Suitable anionic surfactants useful herein may comprise any of the types of conventional anionic surfactants commonly used in liquid detergent products. These include alkylbenzenesulfonic acids and their alkoxylated or non-alkoxylated alkylsulphate salts and materials.
Exemplary anionic surfactants are the alkali metal salts of C10-Ci6 alkylbenzenesulfonic acids or C14 Ci alkylbenzenesulfonic acids. In one aspect, the alkyl group is linear and said linear alkylbenzenesulfonates are known as "LAS". Alkylbenzene sulfonates, in particular LAS, are well known in the industry. Surfactants and their preparation are described, for example, in U.S. Pat. UU num. 2,220,099 and 2,477,383. Particularly useful are straight-chain sodium and potassium alkyl benzene sulfonates, in which the average number of carbon atoms in the alkyl group is from about 1 to 14 C. Ci-C14 sodium, for example from C12, LAS is a specific example of such surfactants.
Another illustrative type of anionic surfactant comprises ethoxylated alkyl sulfate surfactants. Said materials, also known as alkyltromher sulfates or alkyl polyethoxylate sulfates, are those corresponding to the formula: R '- 0 - (C2H40) n-S03M wherein R' is a C8-C20 alkyl group, n is about 0.5 to 20, or 1 to 20, and M is a salt forming cation. In one aspect, R 'is C10-C18 alkyl, n is from about 1 to 15, and M is sodium, potassium, ammonium, alkylammonium or alkanolammonium. In one aspect, R 'is C12-C16, n is from about 0.5 to 6 or from 1 to 6, and M is sodium.
Alkylether sulfates will be used, generally, in the form of mixtures that include lengths of variable R 'chains and varying degrees of ethoxylation.
Frequently, such mixtures will inevitably contain, in addition, some non-ethoxylated alkyl sulfate materials, ie, surfactants of the above ethoxylated alkyl sulfate formula, wherein n = 0. The non-ethoxylated alkyl sulfates may additionally be added separately to the compositions of this invention and used as or in any anionic surfactant component that may be present. Specific examples of non-alkoxylated components, for example, non-ethoxylated alkyl ether sulfate surfactants, are those produced by the sulfation of fatty alcohols of more than C8-C20. The conventional primary alkylsulfate surfactants have the general formula: ROSO3-IVP, wherein R is typically a C8-C2o linear hydrocarbyl group, which may be straight chain or branched chain, and M is a water solubilizing cation . In one aspect, R is a Cl0-C15 alkyl, and M is alkali metal, more specifically, R is d2-C14 and M is sodium.
Specific non-limiting examples of anionic surfactants useful in the present invention include: a) alkyl benzene sulfonates (LAS) of Cn-C18; b) C10-C2o branched and random chain primary alkyl sulfates (AS), which include mainly C12 alkyl sulfates; c) (2,3) Ci0-C18 secondary alkyl sulfates having Formulas (I) and (II): wherein M in Formulas (I) and (II) is hydrogen or a cation that provides charge neutrality, and all M units, whether associated with a surfactant or additional ingredient, can be a hydrogen atom or a cation according to the form isolated by the expert or the relative pH of the system where the compound is used, with non-limiting examples of cations suitable including sodium, potassium, ammonium and mixtures thereof, and x is an integer of at least about 7, or at least about 9, and e is an integer of at least 8, or at least about 9; d) C10-Ci8 alkylakoxy sulfates (AEXS), wherein x is from 1 to 30; e) C10-Ci8 alkyl alkoxy carboxylates in one aspect, whichcomprises from 1 to 5 ethoxy units; f) branched chain half alkyl sulphates, as described in US Pat. UU no. 6,020,303 and the US patent. UU no. 6,060,443; g) branched half-chain alkyl alkoxy sulfates, as described in US Pat. UU no. 6,008, 181 and the US patent. UU no. 6,020,303; h) modified alkylbenzene sulfonate (MLAS), as described in WO patents no. 99/05243, 99/05242, 99/05244, 99/05082, 99/05084, 99/05241, 99/07656, 00/23549 and 00/23548; i) methyl ester sulfonate (MES); and j) alpha-olefin sulfonate (AOS).
A suitable anionic detergent surfactant is predominantly branched C16 half chain alkyl sulfate. Primarily, a suitable raw material for C16 half-chain branched alkyl sulfate is beta-farnesene, such as BioFene ™, supplied by Amyris, Emeryville, California.
Suitable anionic surfactants useful in the present invention can comprise any of the types of conventional anionic surfactants commonly used in liquid detergent products. These include surfactants based on alkoxylated fatty primary alcohols or surfactants based on secondary alcohols and amine oxide surfactants. In one aspect, for use in the liquid detergent products of the present invention, nonionic surfactants that are normally liquid are included.
Suitable nonionic surfactants for use in the present invention include the nonionic surfactants of alkoxylated alcohols. Alkoxylated alcohols are materials of the following formula: R1 (CmH2mO) nOH, wherein R1 is a C8-C16 alkyl group, m is from 2 to 4, and n ranges from about 2 to 12. In one aspect, R1 is a an alkyl group, which may be primary or secondary, comprising from about 9 to 15 carbon atoms, or from about 10 to 14 carbon atoms. In one aspect, the
Alkoxylated fatty alcohols will also be ethoxylated materials containing from about 2 to 12 ethylene oxide entities per molecule, or from about 3 to 10 ethylene oxide entities per molecule.
The alkoxylated fatty alcohol materials useful in the liquid detergent compositions of the present invention will often have a hydrophobic-lipophilic balance (HLB) ranging from about 3 to 17, about 6 to 15 or about 8 to 15. The nonionic surfactants of alkoxylated fatty alcohols have been marketed under the tradenames of Neodol and Dobanol by Shell Chemical Company.
Another suitable type of nonionic surfactant useful in the present invention comprises the amine oxide surfactants. Amine oxides are materials commonly known in the industry as non-ionic "semipolar". The amine oxides have the formula: R (EO) x (PO) and (BO) zN (0) (CH2R ') 2.qH20. In this formula, R is a relatively long chain hydrocarbyl entity which may be saturated or unsaturated, linear or branched, and may contain from 8 to 20, from 10 to 16 carbon atoms, or is a C12-C16 primary alkyl. R 'is a short chain entity, in one aspect, R' can be selected from hydrogen, methyl and ~ CH2OH. When x + y + z is different from 0, EO is ethyleneoxy, PO is propyleneoxy and BO is butyleneoxy. The amine oxide surfactants are illustrated by the alkyldimethylamine oxide of C12-i4
Non-limiting examples of anionic surfactants useful herein include: a) Ci2-C18 alkyl ethoxylates, such as NEODOL® nonionic surfactants from Shell; b) C6-C12 alkylphenol alkoxylates, wherein the alkoxylate units are a mixture of ethyleneoxy and propyleneoxy units; c) C12-Ci8 alcohol and condensates of C6-C12 alkylphenols with ethylene oxide / propylene oxide block polymers, such as Pluronic® from BASF; d) branched alcohols (BA) of half chain of C14-C22, as described in
US patent UU no. 6,150,322; e) branched chain alkyl alkoxylates of C-C22, BAEX, wherein x is from 1 to 30, as described in US Pat. UU num. 6,153,577, 6,020,303 and 6,093,856; f) alkyl polysaccharides, as described in US Pat. UU no. 4,565,647 issued to Llenado on January 26, 1986; specifically, alkyl polyglucosides, as described in US Pat. UU num. 4,483,780 and 4,483,779; g) polyhydroxy fatty acid amides, as described in US Pat. UU no. 5,332,528, WO patent no. 92/06162, WO patent no. 93/19146, WO patent no. 93/19038 and WO patent no. 94/09099; and h) poly (oxyalkylated) alcohol surfactants with ether cap, as described in US Pat. UU no. 6,482,994 and WO patent no. 01/42408.
In the laundry detergent compositions of the present invention, the detergent surfactant component can include combinations of anionic and nonionic surfactant materials. In this case, the weight ratio of anionic to nonionic will typically vary from 10:90 to 90:10, more typically from 30:70 to 70:30.
Cationic surfactants are well known in the industry and non-limiting examples thereof include quaternary ammonium surfactants, which have up to 26 carbon atoms. Additional examples include a) alkoxylated quaternary ammonium surfactants (AQA), as described in US Pat. UU no. 6,136,769; b) dimethyl hydroxyethylammonium quaternary, as described in US Pat. UU no. 6,004,922; c) cationic polyamine surfactants mentioned in patents nos. WO 98/35002, WO 98/35003, WO 98/35004, WO 98/35005 and WO 98/35006; d) cationic ester surfactants, as described in US Pat. UU num. 4,228,042, 4,239,660, 4,260,529 and 6,022,844; and e) amino surfactants, as described in U.S. Pat. UU no. 6,221, 825 and WO patent no. 00/47708, specifically, amido propyldimethyl amine (APA).
Non-limiting examples of zwitterionic surfactants include derivatives of secondary and tertiary amines, derivatives of heterocyclic secondary and tertiary amines or quaternary ammonium derivatives, tertiary sulfonium or quaternary phosphonium compounds. See US patent. UU no. 3,929,678 issued to Laughlin et al; on December 30, 1975, in column 19, line 38 to column 22, line 48, for examples of zwitterionic surfactants; betaine, which include alkyl dimethyl betaine and cocodimethyl amidopropyl betaine, amine oxides of C8 to C, 8 (in one aspect, from Ci2 to Ci8) and sulfo and hydroxy betaines, such as N-alkyl-N, N-dimethylamino sulfonate -1 -propane, wherein the alkyl group may be C8 to C18, or C10 to C14.
Non-limiting examples of ampholytic surfactants include aliphatic derivatives of secondary or tertiary amines or aliphatic derivatives of heterocyclic secondary and tertiary amines in which the aliphatic radical can be straight or branched chain. One of the aliphatic substituents comprises at least about 8 carbon atoms, typically, from about 8 to about 18 carbon atoms, and at least one comprises an anionic group that is solubilized in water, for example, carboxy, sulfonate or sulfate . See US patent. UU no. 3,929,678 issued to Laughlin et al. on December 30, 1975 in column 19, lines 18-35, to find examples of ampholytic surfactants.
Non-surfactant aqueous liquid carrier
As mentioned, the laundry care compositions may be in the form of a solid, either in tablet or in particulate form, including, but not limited to, particles, flakes, sheets or the like, or compositions they can be in liquid form. The liquid detergent compositions may comprise a non-surfactant aqueous liquid carrier. Generally, the amount of aqueous non-surfactant liquid carrier that is employed in the compositions of the
present will be effective to solubilize, suspend or disperse the components of the composition. For example, liquid detergent compositions may comprise, depending on the total weight of the liquid detergent composition, from about 5% to about 90%, from about 10% to about 70%, or from about 20% to about 70% of the carrier non-surfactant aqueous liquid.
The most cost-effective type of non-surfactant aqueous liquid carrier is, typically, water. Accordingly, the aqueous surface non-active liquid carrier component, or most of it, will generally be composed of water. While other types of liquids miscible with water, such as alkanols, have conventionally been added, diols, other polyols, ethers, amines and the like, in liquid detergent compositions as cosolvents or stabilizers, for the purposes of the present invention, the use of such water miscible liquids is typically minimized to reduce the cost of composition. Accordingly, the aqueous liquid carrier component of the liquid detergent products of the present invention will generally comprise water in concentrations ranging from about 5% to about 90%, or from about 5% to about 70% by weight of the detergent composition liquid
The liquid compositions can be structured as described in EP-A-1328616 or EP-A-1396536.
Bleaching agents
Bleaching agents - The cleansing compositions of the present invention may comprise one or more bleaching agents. Suitable bleaching agents other than bleach catalysts include photobleaches, bleach activators, hydrogen peroxide, hydrogen peroxide sources, preformed peracids, and mixtures thereof. Generally, when a bleaching agent is used, the compositions of the present invention may comprise from about 0.1% to about 50% or even from about 0.1% to about 25% of the bleaching agent by weight of the cleaning composition. Some examples of suitable bleaching agents include:
(1) photobleaching agents, such as, for example, phthalocyanine zinc sulfonate;
(2) preformed peracids: Suitable preformed peracids include, but are not limited to, compounds selected from the group comprising percarboxylic salts and acids, percarbonic salts and acids, perimidic salts and acids, salts and peroxymonosulfuric acids, for example, Oxzone®, and mixtures of these. Suitable percarboxylic acids include hydrophobic and hydrophilic peracids having the formula R- (C = 0) 0-0-M wherein R is an optionally branched alkyl group having, when the peracid is hydrophobic, 6 to 4 carbon atoms or from 8 to 12 carbon atoms and, when the peracid is hydrophilic, less than 6 carbon atoms or less than 4 carbon atoms; and M is a counter ion, for example, sodium, potassium or hydrogen;
(3) sources of hydrogen peroxide, for example, inorganic salts of perhydrate, including alkali metal salts such as sodium salts of perborate (usually, mono- or tetrahydrate), percarbonate, persulfate, perfosphate, persilicate salts and mixtures thereof . In one aspect of the invention, the inorganic salts of perhydrate are selected from the group consisting of sodium salts of perborate, percarbonate and mixtures thereof. When inorganic perhydrate salts are used, their concentration varies, typically from 0.05% by weight to 40% by weight, or from 1% by weight to 30% by weight of the total composition and, typically, are incorporated into those compositions as a crystalline solid that can be coated. Suitable coatings include inorganic salts such as alkali metal silicate, carbonate or borate salts or mixtures thereof or organic materials such as soluble or water dispersible polymers, waxes, oils or fatty soaps; Y
(4) bleach activators having R- (C = 0) -L, wherein R is an alkyl group, optionally branched, having, when the bleach activator is hydrophobic, from 6 to 14 carbon atoms, or from 8 to 12 carbon atoms and, when the bleach activator is hydrophilic, less than 6 carbon atoms or even less than 4 carbon atoms; and L is a leaving group. Suitable examples of starting groups are benzoic acid and derivatives thereof, especially benzene sulfonate. Suitable bleach activators include dodecanoyl oxybenzene sulfonate, decanoyl oxybenzene sulfonate, decanoyl oxybenzoic acid or salts thereof, 3,5,5-trimethyl hexanoyloxybenzene sulfonate, tetraacetylethylenediamine (TAED) and nonanoyloxybenzene sulfonate (NOBS). Suitable bleach activators are further described in WO 98/17767. Although any suitable bleach activator may be employed, in one aspect of the invention, the cleaning composition herein may comprise NOBS, TAED or mixtures thereof.
When present, the peracid and / or bleach activator is generally present in the composition in amounts of
about 0.1% by weight to about 60% by weight, from about 0.5% by weight to about 40% by weight or even from about 0.6% by weight to about 10% by weight depending on the composition. One or more hydrophobic peracids or precursors thereof can be used in combination with one or more hydrophilic peracids or precursors thereof.
The amounts of hydrogen peroxide and peracid sources or bleach activator can be selected such that the molar ratio of the available oxygen (from the peroxide source) to the peracid is from 1: 1 to 35: 1, or even from 2: 1 to 10: 1.
Bleaching intensifier compounds. The compositions of the present invention may comprise one or more bleach-enhancing compounds. Bleach enhancing compounds provide greater bleaching efficacy in lower temperature applications. The bleach intensifiers work in conjunction with conventional peroxide bleach sources to provide greater bleaching efficacy. This is normally achieved through the formation in place of an active oxygen transfer agent, such as a dioxirane, an oxaziridine or an oxaziridinium. Alternatively, preformed dioxiranes, oxaziridines and oxazyridiniums may be used.
Among the bleach reinforcing compounds suitable for use in accordance with the present invention are cationic mines, zwitterionic mines, anionic imines and / or polyionic imines having a net charge of about +3 to about -3 and mixtures thereof. These imine bleach reinforcing compounds of the present invention include those with the general structure:
wherein R1-R4 can be a hydrogen or a substituted or unsubstituted radical selected from the group consisting of phenyl, aryl, heterocyclic ring, alkyl and cycloalkyl radicals.
Suitable bleach-enhancing compounds include zwitterionic bleach enhancers, such as those described in US Pat. UU num. 5,576,282 and 5,718,614. Other bleach-enhancing compounds include cationic bleach intensifiers, which are described in US Pat. UU num. 5,360,569; 5,442,066; 5,478,357; 5,370,826; 5,482,515; 5,550,256; and WO patents no. 95/13351, 95/13352 and 95/13353.
The composition may comprise metal bleach catalyst, typically, copper, iron, titanium, ruthenium, tungsten, molybdenum and / or manganese cations. Transition metal bleach catalysts include transition metal bleach catalysts based on iron or manganese, preferably, manganese-based transition metal bleach catalysts.
Peroxide sources are well known in the industry, and the peroxide source employed in the present invention can comprise any of these well-known sources including peroxide compounds, as well as other
compounds that, under the conditions of use for consumption, provide an effective amount of peroxide in the place. The source of peroxide compounds may include a source of hydrogen peroxide, the formation in place of a peracid through the reaction of a source of hydrogen peroxide and a bleach activator, preformed peracid compounds or mixtures of peroxide sources. suitable peroxide compounds. Obviously, a person with ordinary experience in the industry will understand that other sources of peroxide may be employed without departing from the scope of the invention. Bleach-enhancing compounds, when present, are typically employed in conjunction with a source of peroxide compounds in the bleaching systems of the present invention.
An appropriate available oxygen source (AvOx) is a source of hydrogen peroxide, such as percarbonate salts and / or perborate salts, such as sodium percarbonate. The source of peroxide compounds may be at least partially coated or even completely coated by a coating ingredient, such as carbonate salt, sulfate salt, borosilicate or any mixture thereof, including mixed salts thereof. Suitable percarbonate salts can be prepared by a fluidized bed process or a crystallization process. Suitable perborate salts include sodium perborate monohydrate (PB1), sodium perborate tetrahydrate (PB4) and anhydrous sodium perborate, which is also known as effervescent sodium perborate. Other available sources of AvOx include persulfate, such as oxone. Another suitable source of AvOx is hydrogen peroxide. The composition may comprise a reducing bleach. However, the composition can be practically free of reducing bleach; Practically free means that "it was not added deliberately". Suitable reducing bleach includes sodium sulfite and / or thiourea dioxide (TDO).
The composition may comprise a colander particle. Typically, the colander particle comprises a bleach activator and a peroxide source. It may be very suitable that a large amount of bleach activator be present in relation to the source of hydrogen peroxide in the colander particle. The weight ratio of the bleach activator to the peroxide source present in the colander particle can be at least 0.3: 1, or at least 0.6: 1, or at least 0.7: 1, or at least 0.8: 1, or at least 0.9: 1, or at least 1.0: 1.0, or even at least 1.2: 1 or higher. The colander particle may comprise: (i) bleach activator, such as TAED; and (i) a source of hydrogen peroxide, such as sodium percarbonate. The bleach activator can at least partially and even completely enclose a source of hydrogen peroxide. The colander particle may comprise a binder. Suitable binders are carboxylate polymers, such as polyacrylate polymers, and / or surfactants including nonionic detergent surfactants and / or anionic detergent surfactants, such as linear Cn-C13 alkylbenzene sulphonate. The colander particle may comprise bleach catalyst, such as an oxaziridinium bleach catalyst.
Rinse aid. Suitable brighteners are stilbenes, such as brightener 15. Other suitable brighteners are hydrophobic brighteners and brightener 49. The brightener can be in the form of micronized particulate; the weighted average particle size is within the range of 3 to 30 microns, or 3 microns to 20 microns, or 3 to 10 microns. The brightener can be an alpha or beta crystalline form.
Preferably, the composition comprises brightener,
preferably, fluorescent brightener C.l. 260. Preferably, the brightener has the following structure:
I
The fluorescent brightener C.l. 260 is preferably predominantly in alpha-crystalline form. Predominantly in alpha-crystalline form means, preferably, at least 50% by weight, or at least 75% by weight, or even at least 90% by weight, or at least 99% by weight, or even practically all fluorescent brightener Cl 260 is found in alpha-crystalline form.
The fluorescent brightener C.l. 260 may be in micronized particulate form, typically, with a weighted average primary particle size of 3 to 30 microns, preferably, 3 microns to 20 microns, and most preferably 3 to 10 microns; this is particularly preferred when the fluorescent brightener C.l. 260 is predominantly in beta-crystalline form. Predominantly in beta-crystalline form means that, preferably, at least 50% by weight, or at least 75% by weight, or even at least 90% by weight, or at least 99% by weight, or even practically all of the brightener Fluorescent Cl 260 is in beta-crystalline form.
Enzymatic bleach. Enzyme systems can be used as
bleaching agents. Hydrogen peroxide may also be present by adding an enzyme system (ie, an enzyme and a substrate) that is capable of generating hydrogen peroxide at the beginning or during the washing and / or rinsing process. These enzyme systems are described in the European Patent application no. 91202655.6 filed on October 9, 1991.
The compositions and methods of the present invention can use alternative bleach systems, such as ozone, chlorine dioxide and the like. Ozone bleaches can be obtained by introducing ozone-containing gas with an ozone content of about 20 to about 300 g / m 3 into the solution that will come into contact with the fabrics. The gas-liquid ratio in the solution should be maintained from approximately 1: 2.5 to approximately 1: 6. The US patent UU no. 5,346, 588 describes a process for the use of ozone as an alternative to conventional bleaching systems and is incorporated herein by reference.
In one aspect, the active fabric softener ("FSA") is a quaternary ammonium compound suitable for softening the fabrics in the rinse step. In one aspect, FSA is formed from a reaction product of a fatty acid and an amino alcohol to obtain mixtures of mono-, di- and, in one aspect, triester compounds. In another aspect, the FSA comprises one or more quaternary ammonium ammonium compounds such as, but not limited to, a monoalkyl quaternary ammonium compound, a diammonium quaternary compound and a quaternary ammonium diester compound, or a combination thereof.
In one aspect of the invention, the FSA comprises a composition of quaternary ammonium diester compound (hereinafter, DQA, for its acronym in English). In certain aspects of the present invention, the DQA compounds
they further comprise a description of diamine FSA's and FSA's with combined amido and ester linkages, as well as the diester linkages mentioned above, collectively referred to herein as DQA.
A first type of DQA (DQA (1)) suitable as FSA in the CFSC of the present invention includes a compound comprising the formula:
. { R4-m - N + - [(CH2) "- Y - R1W X
wherein each substituent R is hydrogen, an alkyl or hydroxyalkyl group of short chain C6, for example, CrC3, p. eg, methyl, ethyl, propyl, hydroxyethyl, and the like, poly (C2-3 alkoxy), p. eg, polyethoxy group, benzyl, or mixtures thereof; each m is 2 or 3; each n is from 1 to approximately 4, or 2; each Y is -0- (0) C-, -C (0) -0-, -NR-C (O) - or -C (0) -NR- and it is acceptable for each Y to be the same or different; the sum of carbons in each R1, plus one when Y is -0- (0) C- or -NR-C (O) -, is C12-C22, or C14-C20, where each R1 is a hydrocarbyl or substituted hydrocarbyl group; it is acceptable that R1 is unsaturated or saturated and branched or linear and, in one aspect, is linear; it is acceptable that each R1 is the same or different and, typically, they are the same; and X "may be an anion compatible with softener, suitable anions include chloride, bromide, methyl sulfate, ethyl sulfate, sulfate, phosphate and nitrate, in one aspect, the anions are chloride or methyl sulfate. Suitable materials are typically made by reacting alkanolamines, such as MDEA (methyldiethanolamine) and TEA (triethanolamine) with fatty acids Some materials that typically result from such reactions include N, N-di (acyl-oxyethyl) -N, N-dimethylammonium chloride or N, N-di (acyl-oxyethyl) -N, N-methylhydroxyethylammonium sulfate methyl where the acyl group is derived from animal, unsaturated and polyunsaturated fat, fatty acids, for example, tallow, hardened tallow, acid
oleic or partially hydrogenated fatty acids, derived from vegetable oils or partially hydrogenated vegetable oils, such as canola oil, safflower oil, peanut oil, sunflower oil, corn oil, soy bean oil, resin oil, oil of rice bran, palm oil, etc.
Non-limiting examples of suitable fatty acids are listed in U.S. Pat. UU no. 5,759,990 in column 4, lines 45-66. In one aspect, the FSA comprises other assets in addition to DQA (1) or DQA. In yet another aspect, the FSA comprises only DQA (1) or DQA and is free or substantially free of any other quaternary ammonium compound or other active ingredients. In yet another aspect, the FSA comprises the amine precursor that is used to produce DQA.
In another aspect of the invention, the FSA comprises a compound, identified as DTTMAC, which comprises the formula:
[R4-m -N < + > - R1m] A "
wherein each m is 2 or 3, each R1 is a hydrocarbyl or substituent of substituted hydrocarbyl of C6-C22, or of Cu-C ^ o, but not more than one of less than about C12 and the other is, then, of at least about 16, for example, C10-C20 alkyl or alkenyl (unsaturated alkyne, including polyunsaturated alkyl, sometimes also referred to as "alkylene"); in one aspect, Ci2-C18 alkyl or alkenyl, branched or unbranched. In one aspect, the iodine value (IV) of the FSA is from about 1 to 70; each R is H or an alkyl or hydroxyalkyl group of CrCe, or of short chain CrC3, e.g. eg, methyl, ethyl, propyl, hydroxyethyl, and the like, benzyl, or (R2 O ^ H, wherein each R2 is an alkylene group of C.6; and A 'is an anion compatible with softener; they include chloride, bromide, methyl sulfate, ethyl sulfate, sulfate, phosphate or nitrate, in one aspect, the anions are chloride or methyl sulfate.
Examples of these FSAs include dialkyldimethylammonium salts and dialkylenediimethylammonium salts, such as dimethylammonium disodium and methylsulfate dimethylammonium disodium. Examples of commercially available diallylenedimethylammonium salts that can be used in the present invention are dihydrogenated tallow dimethyl ammonium chloride and dimethyl ammonium chloride distributed by Degussa under the trademarks of Adogen® 442 and Adogen® 470, respectively. In one aspect, the FSA comprises other assets in addition to DTTMAC. In yet another aspect, the FSA comprises only DTTMAC compounds and is free or substantially free of any other quaternary ammonium compound or other active compounds.
In one aspect, the FSA comprises an FSA as described in the US patent publication. UU no. 2004/0204337 A1, published on October 14, 2004 and granted to Corona et al., Of paragraphs 30 to 79. In another aspect, the FSA is that described in the US patent publication. UU no. 2004/0229769 A1, published November 18, 2005, assigned to Smith et al., In paragraphs 26 to 31; or the US patent. UU no. 6,494,920, in column 1, line 51 et seq. which describes a triethanolamine ester salt of "ester-quaternized" or quaternized fatty acids.
In one aspect, the FSA is selected from at least one of the following: dimethylammonium dichloroethyl ethyl chloride, dihydrogenated tallow dimethyl ammonium dimethyl ammonium chloride, dimethyl ammonium ditallow chloride, dichloroxyethyl dimethyl ammonium methylsulfate, dihydrogenated tallow dimethyl ammonium dimethyl ammonium chloride, dihydrogenated tallow dimethyl ammonium chloride and mixtures thereof.
In one aspect, the FSA may further include compositions of amide-containing compounds. Some examples of compounds that comprise
diamide may include, but are not limited to, methylsulfate methyl bis (tallowamidoethyl) -2-hydroxyethylammonium (distributed by Degussa under the tradenames Varisoft 1 10 and Varisoft 222). An example of a compound containing amide and ester is N- [3- (stearoylamino) propyl] -N- [2- (stearoyloxy) ethoxy) ethyl)] - N -methylamine.
Another aspect of the invention provides a fabric softening composition that is used in the rinse which also comprises a cationic starch. Cationic starches are described in U.S. Pat. UU no. 2004/0204337 A1. In one aspect, the fabric softening composition that is used in the rinse comprises from about 0.1% to about 7% cationic starch by weight of the fabric softening composition. In one aspect, the cationic starch is HCP401 from National Starch.
In another aspect, the active fabric softener is a particle comprising silicone and clay, such as polydimethylsiloxane and bentonite clay. In addition, the particle may comprise an anionic detergent subtractive, such as linear alkylbenzene sulfonate.
Additives The compositions of the present invention may comprise one or more detergent additives or additive systems. When present, the compositions will typically comprise at least about 1% additive, or from about 5% or 10% to about 80%, 50% or even 30% by weight, of the additive. The additives include, but are not limited to, the alkali metal, ammonium and alkanolammonium salts of polyphosphates, alkali metal silicates, alkali metal and alkaline earth metal carbonates, aluminosilicate additives, polycarboxylate compounds, ether hydroxypolycarboxylates, maleic anhydride copolymers with ethylene or vinyl methyl ether, 1,3-trihydroxybenzene-2,4,6-trisulfonic acid and carboxymethyloxysuccinic acid, the various alkali metal, ammonium and substituted ammonium salts of polyacetic acids, such as ethylenediaminetetraacetic acid and nitrilotriacetic acid, as well as polycarboxylates, such as mellitic acid, succinic acid, oxydisuccinic acid, polymaleic acid, benzene 1, 3,5-tricarboxylic acid, carboxymethyloxysuccinic acid and the soluble salts thereof.
In one aspect of the present invention, the laundry wash composition is a free flowing solid particulate laundry detergent composition and may comprise additives selected from the group consisting of: zeolites; phosphates; citrates; and combinations of these. Typically, the composition comprises from 0 wt% to 10 wt% zeolite additive, or more than 0 wt%, and 8 wt%, or 6 wt%, or 4 wt%, or 3% by weight, or 2% by weight, or even 1% by weight of zeolite additive. The composition can even be practically free of zeolite additive; typically, practically free means "not deliberately added". Typically, the zeolite additives include zeolite A, zeolite P, zeolite AP, zeolite X and zeolite Y. Typically, the composition comprises from 0 wt% to 10 wt% phosphate additive, or more than 0 wt% , already 8% by weight, or 6% by weight, or 4% by weight, or 3% by weight, or 2% by weight, or even 1% by weight of phosphate additive. The composition can even be practically free of phosphate additive; Practically free means that "it was not added deliberately". A typical phosphate additive is sodium tripolyphosphate (STPP). A suitable citrate is sodium citrate. However, citric acid can also be incorporated into the composition, which can form citrate in the wash liquor.
Regulator and source of alkalinity. Suitable regulators and alkalinity sources include carbonate salts and / or silicate salts and / or double salts, such as burkeite.
Carbonate salt. A suitable carbonate salt is sodium carbonate and / or
sodium bicarbonate. The composition may comprise bicarbonate salt. It may be suitable for the composition comprising low levels of carbonate salt, e.g. eg, it may be suitable for the composition comprising 0 wt% to 10 wt% carbonate salt, or 8 wt%, or 6 wt%, or 4 wt%, or 3 wt%, or to 2% by weight, or even 1% by weight of carbonate salt. The composition can still be practically free of carbonate salt; Practically free means that "it was not added deliberately".
The carbonate salt can have a mean weighted average particle size of 100 to 500 microns. Alternatively, the carbonate salt may have a mean weighted average particle size of 10 to 25 microns.
The composition may comprise from 0% by weight to 20% by weight of silicate salt, or 15% by weight, or 10% by weight, or 5% by weight, or 4% by weight, or even 2% by weight , and may comprise more than 0% by weight, or 0.5% by weight, or even 1% by weight of silicate salt. The silicate can be crystalline or amorphous. Suitable crystalline silicates include crystalline layered silicate, such as SKS-6. Other suitable silicates include 1.6R silicate and / or 2.0R silicate. A suitable silicate salt is sodium silicate. Another suitable silicate salt is sodium metasilicate.
The composition may comprise from 0% by weight to 70% by weight. Suitable fillers include sulfate salts and / or bio-charge materials. A suitable bioburden material is alkaline agricultural waste and / or treated with bleach. A suitable sulfate salt is sodium sulfate. The sulfate salt can have a mean weighted average particle size of 100 to 500 microns, alternatively, the sulfate salt can have a mean weighted average particle size of 10 to 45 microns.
Chelating agents. The compositions in the present invention can
optionally also contain one or more copper, iron and / or manganese chelating agents. If used, the chelating agents will generally comprise from about 0.1% by weight of the compositions of the present invention to about 15% or even from about 3.0% to about 15%, by weight of the compositions of the present invention. Suitable chelators can be selected from: diethylene triamine pentaacetate, diethylenetriamine penta (methyl phosphonic acid), ethylene diamine N'N'-disuccinic acid, ethylenediamine tetraacetate, ethylenediamine tetra (methylene phosphonic) acid, hydroxyethane di (methylene phosphonic acid), and any combination thereof . A suitable chelator is ethylenediamine-N'N'-disuccinic acid (EDDS) and / or hydroxyethane diphosphonic acid (HEDP). The laundry detergent composition may comprise ethylenediamine-N'N'-disuccinic acid or a salt thereof. Ethylenediamine-N'N'-disuccinic acid can be found in the S, S enantiomeric form. The composition may comprise disodium salt of 4,5-dihydroxy-m-benzenedisulfonic acid, glutamic acid-N, N-diacetic acid (GLDA) and / or salts thereof, 2-hydroxypyridine-1-oxide, Trilon P ™ available from BASF, Ludwigshafen, Germany. In addition, suitable chelants can be inhibitors of the growth of calcium carbonate crystals. Suitable calcium carbonate crystal growth inhibitors can be selected from the group consisting of: 1-hydroxyethanediphosphonic acid (HEDP), and salts thereof; N, N-dicarboxymethyl-2-aminopentane-1,5-dioic acid, and salts thereof; 2-phosphonobutane-1, 2,4-tricarboxylic acid, and salts thereof; and any combination of these.
The composition may comprise a growth inhibitor of calcium carbonate crystals, such as one selected from the group consisting of: 1-hydroxyethanediphosphonic acid (HEDP), and salts thereof; N, N-dicarboxymethyl-2-aminopentane-1,5-dioic acid, and salts thereof; 2- acid
phosphonobutane-1, 2,4-tricarboxylic acid, and salts thereof; and any combination of these.
Photo whitening Suitable photobleaches are sulfonated phthalocyanines of zinc and / or aluminum.
Dye transfer inhibiting agents. The compositions of the present invention may also include one or more dye transfer inhibiting agents. Suitable dye transfer inhibiting polymeric agents include, but are not limited to, polymers of polyvinylpyrrolidone, polyamine N-oxide polymers, copolymers of N-vinylpyrrolidone and N-vinyllimidazole, polyvinyloxazolidones and polyvinylimidazoles or mixtures thereof. When present in the compositions in the present invention, the dye transfer inhibiting agents are present in concentrations from about 0.0001%, to about 0.01%, from about 0.05%, by weight of the cleaning compositions, to about 10%, approximately 2% or even approximately 1%, by weight of the cleaning compositions.
Dispersants The compositions of the present invention may also comprise dispersants. Suitable water-soluble organic materials are the homo or copolymeric acids or their salts, in which the polycarboxylic acid can comprise at least two carboxyl radicals separated from each other by not more than two carbon atoms.
Polymers Suitable polymers include carboxylate polymers, polyethylene glycol polymers, polyester dirt removal polymers, such as polymers of terephthalate, amine polymers, cellulosic polymers, dye transfer inhibition polymers, dye fixing polymers, such as a condensation oligomer produced by condensation of imidazole and epichlorohydrin, optionally in a ratio of 1: 4: 1, polymers derived from hexamethylenediamine and any combination thereof.
Suitable carboxylate polymers include random maleate / acrylate copolymer or polyacrylate homopolymer. The carboxylate polymer can be a polyacrylate homopolymer having a molecular weight of 4,000 Da to 9,000 Da or 6,000 Da to 9,000 Da. Other suitable carboxylate polymers are the copolymers of maleic acid and acrylic acid, and may have a molecular weight in the range of 4,000 Da to 90,000 Da. !
Suitable polyethylene glycol polymers include random graft copolymers comprising: (i) hydrophilic backbone comprising polyethylene glycol; and (ii) hydrophobic side chains selected from the group consisting of: C4 alkyl group. C25, polypropylene, polybutylene, vinyl ester of a saturated monocarboxylic acid of Cr C6, alkyl ester of acrylic or methacrylic acid of d.C6 and mixtures of these. Suitable polyethylene glycol polymers have a polyethylene glycol backbone with grafted and random polyvinyl acetate side chains. The average molecular weight of the polyethylene glycol backbone can be in the range of 2,000 Da to 20,000 Da or 4,000 Da to 8,000 Da. The molecular weight ratio between the polyethylene glycol backbone and the polyvinyl acetate side chains can be in the range of 1: 1 to 1: 5 or 1: 1.2 to 1: 2. The average number of graft sites per units of ethylene oxide can be less than 1 or less than 0.8, the average number of graft sites per units can be within the range of 0.5 to 0.9, or the average number of graft sites by units; can be within the range of 0.1 to 0.5 or 0.2 to 0.4. A suitable polyethylene glycol polymer is HP22.
The polyester dirt release polymers have a structure defined by one of the following structures (I), (II) or (III):
(I) - [(OCHR1-CHR2) a-0-OC-Ar-CO-] d
(II) - [(OCHR3-CHR) b-0-OC-sAr-CO-] e
(III) - [(OCHR5-CHR6) c-OR7],
where:
a, b and c are from 1 to 200;
d, e and f are from 1 to 50;
Ar is 1, 4-substituted phenylene;
sAr is 1,3-phenylene substituted at the 5-position with S03Me;
Me is H, Na, Li, K, Mg / 2, Ca / 2, Al / 3, ammonium, mono-, di-, tri- or tetraalkylammonium, wherein the alkyl groups are CrCi8 alkyl or C2- hydroxyalkyl C10, or any mixture of these;
R1, R2, R3, R4, R5 and R6 are independently selected from H or Ci-Ci8 n- or isoalkyl; Y
R7 is a linear or branched CrC ^ alkyl, or a linear or branched C2-C30 alkenyl, or a cycloalkyl group with 5 to 9 carbon atoms, or a C8-C3o aryl group or a C6-C3 arylalkyl group . Suitable polyester soil release polymers are terephthalate polymers having a structure of Formula (I) or (II) above.
Suitable polyester soil release polymers include Repel-o-tex series polymers, such as Repel-o-tex SF2 (Rhodia), and / or Texcare series polymers, such as Texcare SRA300 (Clariant). .
Suitable amine polymers include polyethyleneimine polymers, such as alkoxylated polyalkyleneimines which, optionally, comprise a polyethylene oxide block and / or polypropylene.
The composition may comprise cellulosic polymers, such as polymers selected from alkyl cellulose, alkyl alkoxyalkyl cellulose, carboxyalkyl cellulose, alkyl carboxyalkyl, and any combination thereof. Suitable cellulosic polymers are selected from carboxymethyl cellulose, methyl cellulose, methyl hydroxyethyl cellulose, methyl carboxymethyl cellulose and mixtures thereof. Carboxymethylcellulose can have a degree of carboxymethyl substitution of 0.5 to 0.9 and a molecular weight of 100,000 Da to 300,000 Da. Another suitable cellulosic polymer is hydrophobically modified carboxymethylcellulose, such as Finnfix SH-1 (CP Kelco).
Other cellulose polymers can have a degree of substitution (DS) of 0.01 to 0.99 and a degree of block conformation (DB), so that DS + DB is at least 1.00 or DB + 2DS-DS2 is at least 1 .20. The substituted cellulosic polymer can have a degree of substitution (DS) of at least 0.55. The substituted cellulosic polymer can have a block conformation degree (DB) of at least 0.35. The substituted cellulosic polymer can have a DS + DB of 1.05 to 2.00. A suitable substituted cellulosic polymer is carboxymethylcellulose.
Another suitable cellulosic polymer is cationically modified hydroxyethyl cellulose. Suitable polymers include polymers derived from hexamethylene diamine typically having the formula:
R2 (CH3) N + (CH2) 6N + (CH3) R2. 2X '
wherein X "is a suitable counterion, eg, chloride, and R is a poly (ethylene glycol) chain having an average degree of ethoxylation of 20 to 30. Optionally, the poly (ethylene glycol) chains may have, independently, auction of groups
sulfate and / or sulfonate, typically, with the charge balanced by reducing the number of counterions X "or (in cases where the average degree of sulfation per molecule is greater than two) by the introduction of Y + counterions, e.g. ., sodium cations.
Modified carboxylate polymers. The polymers or copolymers comprising (i) from 50 to less than 98% by weight of structural units derived from one or more monomers comprising carboxyl groups, (ii) from 1 to less than 49% by weight of structural units derived from one or more monomers comprising sulfonate entities and (iii) from 1 to 49% by weight of structural units derived from one or more types of monomers selected from ether-linked monomers represented by Formulas (I) and (II):
Formula (I):
in Formula (I), R0 represents a hydrogen atom or group CH3, R represents a group CH2, group CH2CH2 or single bond, X represents a number from 0 to 5 (the X provided represents a number from 1 to 5 when R is a simple bond), and R, is a hydrogen atom or organic group of C20,
Formula (II)
In Formula (II), R0 represents a hydrogen atom or group CH3, R represents a group CH2, group CH2CH2 or single bond, X represents a number from 0 to 5, and is a hydrogen atom or organic group of C20. .
Enzymes The compositions may comprise one or more detergent enzymes that provide cleaning performance and / or fabric care benefits. Examples of suitable enzymes include, but are not limited to, hemicellulases, peroxidases, proteases, cellulases, xylanases, lipases, phospholipases, esterases, cutinases, pectinases, keratanases, reductases, oxidases, phenoloxidases, lipoxygenases, ligninases, pullulanases, tanases, pentosanases , malanases, ß-glucanases, arabinosidases, hyaluronidase, chondroitinase, laccase and amylases, or mixtures of these. A typical combination is a cocktail of conventional applicable enzymes such as protease, lipase, cutinase or cellulase in conjunction with amylase.
The composition may comprise a protease. Suitable proteases include metalloproteases and / or serine proteases that include neutral or alkaline microbial serine proteases, such as subtilisins (EC 3.4.21.62). Suitable proteases include proteases of animal, plant or microbial origin. In one aspect, said suitable protease may be of microbial origin. Suitable proteases include chemically or genetically modified mutants of the aforementioned suitable proteases
previously. In one aspect, the suitable protease may be a serine protease, such as an alkaline microbial protease and / or a trypsin-like protease. Some examples of suitable neutral or alkaline proteases include:
(a) subttlysins (EC 3.4.21 .62), which include those derived from Bacillus, such as Bacillus lentus, Bacillus alkalophilus (P27963, ELYA_BACAO), Bacillus subtilis, Bacillus amyloliquefaciens (P00782, SUBT_BACAM), Bacillus pumilus (P07518) and Bacillus gibsonii (DSM14391).
(b) trypsin-like or chymotrypsin-like proteases, such as trypsin (eg, of porcine or bovine origin) including the Fusarium protease and the chymotrypsin proteases derived from Cellumonas (A2RQE2).
(c) metalloproteases, which include those derived from Bacillus amyloliquefaciens (P06832, NPRE_BACAM).
Suitable proteases include those derived from Bacillus gibsonii or Bacillus Lentus, such as subtilisin 309 (P29600) and / or DSM 5483 (P29599).
Commercially available protease enzymes include: those sold under the tradename Alcalase®, Savinase®, Primase®, Durazym®, Polarzyme®, Kannase®, Liquanase®, Liquanase Ultra®, Savinase Ultra®, Ovozyme®, Neutrase®, Everlase® and Esperase® from Novozymes AS (Denmark); those sold under the trade names Maxatase®, Maxacal®, Maxapem®, Properase®, Purafect®, Purafect Prime®, Purafect Ox®, FN3®, FN4®, Excellase® and Purafect OXP® from Genencor International; those sold under the trade name Opticlean® and Optimase® by Solvay Enzymes; those sold from Henkei / Kemira, namely, BLAP (P29599 having the mutations S99D + S101 R + S103A + V104I + G159S), and variants thereof including BLAP R (BLAP with S3T + V4I + V199M + V205I + L217D), BLAP X (BLAP with S3T + V4I + V205I) and BLAP F49 (BLAP with
S3T + V4I + A194P + V199M + V205I + L217D), all from Henkel / Kemira; and KAP (subtilisin Bacillus alkalophilus with mutations A230V + S256G + S259N) from Kao.
Suitable amylases are alpha-amylases, which include those of bacterial or fungal origin. Mutants (variants) modified chemically or genetically are included. A suitable alkaline alpha-amylase is derived from a Bacillus strain, such as Bacillus licheniformis, Bacillus amyloliquefaciens, Bacillus stearothermophilus, Bacillus subtilis or other Bacillus strains, such as Bacillus sp. NCIB 12289, NCIB 12512, NCIB 12513, sp 707, DSM 9375, DSM 12368, DSMZ no. 12649, KSM AP1378, KSM K36 or KSM K38. Suitable amylases include:
(a) alpha-amylase derived from Bacillus licheniformis (P06278, AMY_BACLI), and variants thereof, especially variants with substitutions in one or more of the following positions: 15, 23, 105, 106, 124, 128, 133, 154, 156, 181, 188, 90, 197, 202, 208, 209, 243, 264, 304, 305, 391, 408, and 444.
(b) AA560 alphaamylase (CBU30457, HD066534) and variants thereof, especially variants with substitutions in one or more of the following positions: 26, 30, 33, 82, 37, 106, 1 18, 128, 133, 149, 150, 160, 178, 182, 186, 193, 203, 214, 231, 256, 257, 258, 269, 270, 272, 283, 295, 296, 298, 299, 303, 304, 305, 31 1, 314 , 315, 318, 319, 339, 345, 361, 378, 383, 419, 421, 437, 441, 444, 445, 446, 447, 450, 461, 471, 482, 484, optionally, which also contain the deletions of D183 * and G184 *.
(c) variants exhibiting at least 90% identity with the wild-type Bacillus enzyme SP722 (CBU30453, HD066526), especially variants with deletions at positions 183 and 184.
The commercially available suitable alpha-amylases are Duramyl®, Liquezyme® Termamyl®, Termamyl Ultra®, Natalase®, Supramyl®, Stainzyme®, Stainzyme Plus®, Fungamyl® and BAN® (Novozymes A / S), Bioamylase® and variants of these (Biocon India Ltd.), Kemzym® AT 9000 (Biozym Ges.mbH, Austria), Rapidase®, Purastar®, Optisize HT Plus®, Enzysize®, Powerase® and Purastar Oxam®, Maxamyl® (Genencor International Inc.) and KAM® (KAO, Japan). Suitable amylases are Natalase®, Stainzyme® and Stainzyme Plus®.
The composition may comprise a cellulose. Suitable cellulases include those of bacterial or fungal origin. Chemically modified or protein engineered mutants are included. Suitable cellulases include cellulases of the genera Bacillus, Pseudomonas, Humicola, Fusarium, Thielavia, Acremonium, p. eg, fungal cellulases produced from Humicola insolens, Myceliophthora thermophila and Fusarium oxysporum.
Commercially available cellulases include Celluzyme®, and Carezyme® (Novozymes A / S), Clazinase®, and Puradax HA® (Genencor International Inc.), and KAC-500 (B) ® (Kao Corporation).
The cellulase may include endoglucanases derived from microbes that exhibit endo-beta-1,4-glucanase activity (E.C. 3.2.1.4), which include a bacterial polypeptide endogenous to an element of the Bacillus gene. sp AA349 and mixtures of these. Suitable endoglucanases are sold under the tradename Celluclean® and Whitezyme® (Novozymes A / S, Bagsvaerd, Denmark).
The composition may comprise a cleansing cellulase belonging to the glycosyl hydrolase family having a molecular weight of 17 kDa to 30 kDa, for example, the endoglucanases sold under the tradename Biotouch® NCD, DCC and DCL (AB Enzymes, Darmstadt, Germany).
Suitable cellulases, such as Whitezyme® can also exhibit xyloglucanase activity.
The composition may comprise a lipase. Suitable lipases include those of bacterial or fungal origin. Chemically modified or protein engineered mutants are included. Examples of useful lipases include lipases from Humicola (synonymous with Thermomyces), for example, from H. lanuginosa (G. lanuginosus), or from H. insolens, a lipase from Pseudomonas, for example, from P. alcaligenes or P. pseudoalcaligenes , P. cepacia, P. stutzeri, P. fluorescens, Pseudomonas sp., Strain SD 705, P. wisconsinensis, a lipase from Bacillus, for example, from B. subtilis, B. stearothermophilus or B. pumilus.
The lipase can be a "first cycle lipase", optionally, a variant of the wild lipase from Thermomyces lanuginosus, which comprises the mutations T231 R and N233R. The wild-type sequences are the 269 amino acids (amino acids 23-291) with accession number to Swissprot Swiss-Prot 059952 (derived from Thermomyces lanuginosus. {Humicola lanuginosa)). Suitable lipases may include those marketed under the tradename Lipex®, Lipolex® and Lipoclean® from Novozymes, Bagsvaerd, Denmark.
The composition may comprise a variant lipase Thermomyces lanuginosa (059952) having > 90% identity with the wild type amino acid and comprises one or more substitutions in T231 and / or N233, optionally, T231 R and / or N233R.
Suitable xyloglucanase enzymes can have an enzymatic activity towards both substrates of xyloglucan and amorphous cellulose. The enzyme can be a glycosyl hydrolase (GH) selected from the GH families 5, 12, 44 or 74. The glycosyl hydrolase selected from the GH 44 family is particularly suitable. Suitable glycosyl hydrolases of the GH 44 family are the glycosyl hydrolase XYG1006 from Paenibacillus polyxyma (ATCC 832) and variants thereof.
The Nastas pectates are wild-type or variants of Bacillus-derived pectate lyases (CAF05441, AAU25568) sold under the tradenames Pectawash®, Pectaway® and X-Pect® (from Novozymes A / S, Bagsvaerd, Denmark).
Suitable mannanases are sold under the trade names Mannaway® (by Novozymes A / S, Bagsvaerd, Denmark) and Purabrite® (Genencor International Inc., Palo Alto, California).
Suitable bleach enzymes include oxidoreductases, e.g. oxidases, such as glucose, choline or carbohydrate oxidases, oxygenases, catalases, peroxidases, halo-, chloro-, bromo-, lignin-, glucose- or manganese-peroxidases, dioxygenases or laccases (phenoloxidases, polyphenoloxidases). Suitable commercial products are sold under the Novozymes Guardzyme® and Denilite® varieties. It may be convenient to incorporate additional organic compounds, especially aromatic compounds, together with the bleaching enzyme; these compounds interact with the aromatic enzyme to improve the activity of the oxidoreductase (enhancer) or to facilitate the flow of electrons (mediator) between the oxidant enzyme and the stain, typically, on extremely different redox potentials.
Other suitable bleach enzymes include perhydrolases, which catalyze the formation of peracids of an ester substrate and a source of peroxide compounds. Suitable perhydrolases include variants of the Mycobacterium smegmatis perhydrolase, variants of the so-called CE-7 perhydrolases and wild-type Carlsberg subtilisin variants having perhydrolase activity.
suitable cutinases are defined in E.C. Class 3.1 .1 .73 that have, optionally, at least 90% or 95% or, more optionally, at least 98%
of identity with a wild type derived from one of Fusarium solani, Pseudomonas Mendocina or Humicola Insolens.
The relativity between two amino acid sequences is described by the parameter "identity". For the purposes of the present invention, the alignment of two amino acid sequences is determined with the Needle program of the EMBOSS package (http://emboss.org) version 2.8.0. The Needle program implements the global alignment algorithm described in Needleman, S. B. and Wunsch, C. D. (1970) J. Mol. Biol. 48, 443-453. The substitution matrix used is BLOSUM62, the interruption opening penalty (gap) is 10, and the interruption extension penalty (gap) is 0.5.
Enzyme stabilizers. Enzymes for use in compositions, for example, detergents, can be stabilized by various techniques. The enzymes employed in the present invention can be stabilized by the presence of water-soluble magnesium and / or calcium ion sources in the finished compositions that provide the ions to the enzymes.
Perfumes Suitable perfumes include perfume microcapsules, polymer-assisted perfume delivery systems, including Schiff-based perfume / polymer complexes, perfume fragrances encapsulated in starch, perfume-laden zeolites, flowering perfume fragrances and any combination of these. A suitable perfume microcapsule is based on a melamine-formaldehyde typically comprising perfume that is encapsulated by a melamine-formaldehyde-containing shell. It can be highly suitable that these perfume microcapsules comprise cation material and / or cationic precursor in the shell, such as polyvinyl formamide (PVF) and / or cationically modified hydroxyethyl cellulose (catHEC).
Suitable fabric softening agents include clay, silicone and / or
Quaternary ammonium compounds. Suitable clays include montmorillonite clay, hectorite clay and / or laponite clay. A suitable clay is montmorillonite clay. Suitable silicones include aminosilicones and / or polydimethylsiloxane (PDMS). A suitable fabric softener is a particle comprising clay and silicone, such as a particle comprising montmorillonite clay and PDMS.
Suitable flocculants include polyethylene oxide; for example, they have an average molecular weight of 300,000 Da to 900,000 Da.
Suitable foam suppressors include silicone and / or fatty acid, such as stearic acid.
Suitable aesthetic particles include soap rings, lamellar aesthetic particles, gelatin beads, carbonate and / or sulfate salt specks, colored clay particles, and any combination thereof.
PH profile. Typically, the composition has a pH profile so that, after dissolution in deionized water at 20 ° C and at a concentration of 2 g / l, the composition provides a wash liquor with an equilibrium pH of 9.5 to 1 liter. , preferably, from 10 to 1. Alternatively, the composition may provide a pH profile such that: (i) 3 minutes after coming into contact with water, the pH of the wash liquor is greater than 10; (ii) 10 minutes after coming into contact with water, the pH of the wash liquor is less than 9.5; (iii) 20 minutes after contacting. water, the pH of the wash liquor is less than 9.0; and (iv) optionally, wherein the equilibrium pH of the wash liquor is in the range of more than 7.0 to 8.5. This dynamic pH profile can be affected by the reduction of the reserve alkalinity of the composition, for example, so that the composition has a reserve alkalinity at a pH of 7.5 of less than 15, and by the delay in the release of the acid in the wash liquor, p. eg, by coating the acid source, such as by citric acid
coated with wax or citric acid coated with palmitic acid. Alternatively, the composition may have a more neutral pH profile, for example, so that after dilution in deionized water at a concentration of 2 g / l at 20 ° C, the composition has an equilibrium pH of 7.6 to 8.8.
Elaboration process
The liquid detergent compositions are in the form of an aqueous solution or uniform dispersion or suspension of surfactant, bluing agent and certain other optional ingredients, some of which commonly may be in solid form, which have been combined with the components of the composition , commonly liquids, such as liquid nonionic ethoxylate alcohol, the aqueous liquid carrier and any other optionally liquid ingredient. This solution, dispersion or suspension should have an acceptable stable phase and will typically have a viscosity in the range of about 100 to 600 cps, or about 150 to 400 cps. For the purposes of the present invention, the viscosity is measured with a Brookfield LVDV-II + viscometer apparatus that employs a # 21 shaft.
The liquid detergent compositions of the present invention can be prepared by combining their components in any suitable order and mixing, for example, by stirring, the resulting combination of components to form the stable phase liquid detergent compositions. In the process of making said compositions, a liquid matrix is formed which contains at least a significant proportion of the liquid components, or even practically all of the liquid components, e.g. eg, non-ionic surfactant, non-surfactant liquid carriers and other optional liquid components, where the components are thoroughly mixed by imparting shear agitation to this liquid combination. For example, a mechanical agitator can be used to achieve rapid agitation. Almost all surfactants
Anionic and solid ingredients can be added while maintaining agitation with shear stress. The mixture is continued to stir and, if necessary at this point, agitation may be intensified to form a uniform solution or dispersion of solid phase insoluble particulates within the liquid phase. After adding some or all of the solid materials in this stirred mixture, the particles of the preferred enzyme material are incorporated, for example, enzymatic granules. In a variation of the method of preparing the composition described above, one or more solid components may be added to the stirred mixture as a solution or slurry of premixed particles with a minor portion of one or more of the liquid components. After adding all the components of the composition, the time necessary to form the compositions with the appropriate characteristics of viscosity and phase stability continues to be stirred. Frequently, this will involve agitation for a period of approximately 30 to 60 minutes.
In one aspect of the preparation of the liquid detergent compositions, the bluing agent is first combined with one or more liquid components to form a premix of bluing agent, and this premix of bluing agent is added to a formulation of the composition that contains a substantial portion, for example, more than 50% by weight, more specifically, more than 70% by weight, and even more specifically, more than 90% by weight, of the balance of the components of the laundry detergent composition. For example, in the methodology described above, both the bluing agent premix and the enzymatic component are added in the final stage of the component addition. In one aspect, the bluing agent is encapsulated before being added to the detergent composition; The encapsulated bluing agent is suspended in a structured liquid and the suspension is added to a formulation of the composition that contains a substantial portion of the balance of the components of the laundry detergent composition.
In a preferred embodiment of the invention, the composition is supplied in the form of a unit dose, either as a tablet or, preferably, a composition comprising any form, such as liquid / gel / granules included in a water-soluble film in what is known as a bag or pod. The product can be a single bag or multiple compartments. Multi-compartment bags are described in more detail in EP-A-2133410.
Water soluble film
The film suitable for making the bags is soluble or dispersible in water and preferably has a water solubility of at least 50%, preferably at least 75%, or even at least 95%, as calculated by the method set forth herein using a glass filter with a maximum pore size of 20 microns:
50 grams ± 0.1 gram of bag material is added to a previously weighed 400 ml beaker and 245 ml ± 1 ml distilled water is added. Stir vigorously on a magnetic stirrer set at 600 rpm for 30 minutes. Then, the mixture is filtered through a qualitatively folded sintered glass filter with a pore size as defined above (max 20 microns). The water is dried from the collected filtrate by any conventional method and the weight of the remaining material (which is the dissolved or dispersed fraction) is determined. Then the percentage of solubility or dispersibility can be calculated. The preferred materials of the film are preferably polymeric materials. The film material can, for example, be obtained by casting, blow molding, extrusion or blown extrusion of the polymeric material, as is known in the industry.
Suitable polymers, copolymers or derivatives thereof, suitable
to be used as material for the bag are selected from the group consisting of polyvinyl alcohols, polyvinylpyrrolidone, polyalkylene oxide, acrylamide, acrylic acid, cellulose, cellulose ethers, cellulose esters, cellulose amides, polyvinyl acetate, polycarboxylic acids and their salts, polyamino acids or peptides, polyamides, polyacrylamides, maleic / acrylic acid copolymers , polysaccharides, which include starch and gelatin, natural gums such as xanthan and carrageen, and / or mixtures thereof. The most preferred polymers are selected from polyacrylates and copolymers of water-soluble acrylate, methylcellulose, sodium carboxymethylcellulose, dextrin, ethylcellulose, hydroxyethylcellulose, hydroxypropylmethylcellulose, maltodextrin, polymethacrylates and, most preferably, selected from polyvinyl alcohols, alcohol copolymers polyvinyl and hydroxypropylmethylcellulose (HP C) and combinations of these. Preferably, the level of the polymer in the sachet material, for example, a PVA polymer, is at least 60%. The polymer can have any weighted average molecular weight, preferably, in order of least to greatest preference and in approximate ranges, from 1,000 to 1,000,000, from 10,000 to 300,000 and from 20,000 to 150,000.
In addition, mixtures of polymers can be used as bag material. This can be beneficial to control the mechanical properties and / or dissolution of the compartments or the bag, depending on its application, as well as the needs required. Suitable mixtures include, for example, mixtures in which one polymer has a water solubility greater than that of another polymer or a polymer has a greater mechanical strength than that of another polymer. Further, mixtures of polymers having different weighted average molecular weight, for example, a mixture of polyvinyl acetate (PVA) or a copolymer thereof of a weight average molecular weight of about 10,000-40,000, are suitable. ,
preferably, about 20,000, and of PVA or copolymer thereof with a weight average molecular weight of from about 100,000 to 300,000, preferably, about 150,000. Further suitable in the present invention are compositions of polymer blends, for example, which comprise polymer blends degradable by hydrolysis and water soluble such as polylactide and polyvinyl alcohol, typically comprising about 1-35% by weight of Polylactide and about 65% to 99% by weight of polyvinyl alcohol. In the present invention it is preferred to use polymers that are from about 60% to about 98% hydrolyzed, preferably, about 80% to about 90% hydrolyzed, to improve the dissolution characteristics of the material.
Naturally, different film materials and / or films of different thickness can be used in the manufacture of the compartments. A benefit to selecting different films is that the resulting compartments may have different solubility or release characteristics.
The most preferred film materials are PVA films known under the trademark MonoSol, reference M8630, M8900, H8779 (as described in the co-pending applications of applicants, reference 44528 and 1 1599) and those described in the US patents. . UU num. 6, 166, 1 17 and 6,787,512, and PVA films with corresponding solderability and deformation characteristics.
The material of the film herein may further comprise one or more additive ingredients. For example, it may be beneficial to add plasticizing agents, for example, glycerol, ethylene glycol, diethylene glycol, propylene glycol, sorbitol and mixtures thereof. Other additives include additives with detergent function that are supplied in the wash water, for example, polymeric organic dispersing agents, etc.
Process to make the water-soluble sachet
The process of the present invention can be elaborated with the use of any suitable equipment and method. However, multi-compartment bags are preferably made by the horizontal filling process. Preferably, the film is wetted, more preferably, heated to increase its handling. Even more preferably, the method also involves the use of vacuum to place the film in a suitable mold. The vacuum that puts the film in the mold can be applied for 0.2 to 5 seconds, preferably 0.3 to 3 or even more preferably 0.5 to 1.5 seconds, once the film is in the horizontal portion of the surface. This vacuum may preferably be so as to provide a vacuum between -10 kPa (-100 mbar) and -100 kPa (-1000 mbar), or even from -20 kPa (-200 mbar) to -60 kPa (- 600 mbar).
The molds, in which the sachets are made, can have any shape, length, width and depth, depending on the required dimensions of the sachets. If desired, the molds may also vary in size and shape from one mold to another. For example, it may be preferred that the volume of the final bags be between 5 and 300 ml, or even between 10 and 150 ml, or even between 20 and 100 ml, and that the sizes of the molds be adjusted accordingly.
The heat can be applied to the film, in the process commonly known as thermoforming, by any means. For example, the film can be heated directly by passing under a thermal element or by hot air, before being supplied on the surface or once placed on it. Alternatively, it can be heated indirectly, for example, by heating the surface or applying a hot article on the film. Most preferably, the film is heated with the use of infrared light. Preferably, the film is heated to a temperature of 50 to 120 ° C, or
even from 60 to 90 ° C. Alternatively, the film can be wetted by any means, for example, by directly spraying a wetting agent (which includes water, film material solutions or plasticizers for the film material) onto the film, before being supplied on the surface or once it is over it, or indirectly by moistening the surface or applying a wet article on the film.
In the case of sachets comprising powders, it is advantageous to use a pin to make small perforations in the film for several reasons: first, to reduce the possibility of defects in the film during the formation of the bag. For example, defects in the film that cause film breakage can be generated if the film is stretched too quickly. Second, to allow the release of any gas derived from the product included in the bag such as, for example, oxygen formation in the case of powders containing bleach. Third, to allow the continuous release of perfume. In addition, when using, heat and / or wetting, pin piercing may be used before, during or after the vacuum application, preferably, during or before the application of vacuum. Therefore, it is preferred that each mold comprises one or more holes that are connected to a system that can provide a vacuum through these holes, on the film above the holes, as described in detail in the present description.
Once the film has been heated / moistened, it is placed in a suitable mold, preferably with the use of vacuum. The filling of the molded film can be carried out by any known method for filling (preferably, moving) articles. The most preferred method will depend on the shape of the product and the required filling speed. Preferably, the molded film is filled by in-line filling techniques. Then, the filled and opened bags close with the use of a second film by any suitable method. Preferably, this is also done while they are in a horizontal position and in a continuous and constant movement. Preferably, the closure is performed by continuously supplying a second material or film, preferably a water-soluble film, over the open bag web and then, preferably, sealing the first film with the second, typically , in the area between the molds and, therefore, between the bags.
Preferred sealing methods include heat sealing, solvent welding and wet or solvent sealing. It is preferred that only the area indicated to form the seal be treated with heat or solvent. The heat or solvent can be applied with any method, preferably, over the closure material, preferably only in the areas that must form the seal. If sealing or welding with solvent or heat is used, it may be convenient to apply heat. Preferred methods of solvent welding or wet or solvent sealing include selectively applying solvent over the area between the molds, or in the closure material, for example, by spraying or printing on these areas and then applying pressure on said areas to form the seal. For example, the sealing bands and rollers can be used as described above (optionally, also with the heat supply).
Then, the formed sachets can be cut by a cutting device. The cutting can be done with the use of any known method. It may be preferred that the cut be made, in addition, continuously and, preferably, with constant speed and, preferably, while they are in horizontal position. The cutting device can, for example, be a sharp article or a hot article, through which in the latter case, the hot article is burned through the film / sealing area.
The different compartments of a multiple bag
Compartments can be made together in one style together and the consecutive sachets are not cut. Alternatively, the compartments can be processed separately. In accordance with this process and the preferred configuration, the sachets are made in accordance with the process comprising the steps of:
a) forming a first compartment (as described above); b) forming a cavity within some or all of the closed compartments formed in step (a), to generate a second molded compartment superimposed on the first compartment;
c) filling and closing the second compartment by a third film;
d) seal the first, second and third mentioned films; and e) cutting the films to produce a multi-compartment sachet.
Said cavity formed in step b is preferably achieved by applying a vacuum to the compartment prepared in step a).
Alternatively, the second and optionally third compartment can be processed in a separate step and then combined with the first compartment as described in our copending application no. EP 08101442.5 incorporated in the present invention as reference. A particularly preferred process comprises the steps of:
a) forming a first compartment, optionally with the use of heat and / or vacuum, with the use of a first film in a first forming machine;
b) filling said first compartment with a first composition;
c) in a second forming machine, deforming a second film, optionally with the use of heat and vacuum to make a second and, optionally, third molded compartment;
d) filling the second and, optionally, third compartments;
e) sealing the second compartment and, optionally, third with the use of a third film;
f) placing the second and, optionally, third compartments sealed on the first compartment;
g) seal the first, the second and, optionally, the third compartment; Y
h) Cut the films to produce a multi-compartment sachet
The first and second forming machines are selected based on their suitability for carrying out the aforementioned process. The first forming machine is preferably a horizontal forming machine. The second forming machine is preferably a rotating drum forming machine preferably located on the first forming machine.
Furthermore, it will be understood that through the use of appropriate dispensing stations, it is possible to manufacture multi-compartment sachets that incorporate a number of different or different compositions and / or different or different liquid, gel or paste compositions.
As mentioned above, the detergent compositions can be in solid form. Suitable solid forms include tablets and particulate forms, for example, granular particles, flakes or sheets. Various techniques for forming detergent compositions in such solid form are well known in the industry and can be used in the present invention. In one aspect, for example, when the composition is in the form of a granular particle, the bluing agent is provided in particulate form, optionally, which includes additional components but not all components of the laundry detergent composition. The bluing agent particulate is combined with one or more additional particulates which contain a balance of detergent composition components for laundry. further, the bluing agent which, optionally, includes additional components but not all components of the laundry detergent composition, can be supplied in encapsulated form, and the encapsulated bluing agent is combined with particulates which contain a substantial balance of the components of the binder. the laundry detergent composition.
The compositions of this invention, prepared as described above, can be used to form aqueous wash solutions useful for washing? fabrics Generally, an effective amount of said compositions in water is added, for example, in a conventional automatic fabric washing machine, to form said aqueous washing solutions. The aqueous washing solution formed from this tank is then contacted, typically, under agitation with the fabrics to be washed therewith. An effective amount of the liquid detergent compositions of the present invention added in water to form aqueous wash solutions may comprise sufficient amounts to form from about 500 to 7,000 ppm of the composition in the aqueous wash solution, or from about 1,000 to 3,000 ppm of the detergent compositions of the present invention will be supplied in the aqueous wash solution.;
Typically, the wash liquor is formed by contacting the laundry detergent with the water in such an amount that the concentration of the laundry detergent composition in the wash liquor is greater than 0 g / l to 5 g / l, preferably of 1 g / l, preferably at 4.5 g / l, or at 4.0 g / l, or at 3.5 g / l, or at 3.0 g / l, or at 2.5 g / l, or even at 2.0 g / l, or even at 1.5 g / l. The method for washing fabrics can be carried out in an automatic top loading or front loading washing machine or can be carried out in a hand washing application. In these applications, the wash liquor formed and the concentration of the laundry detergent composition in the wash liquor is that of the main wash cycle. Water ingress during any optional rinse step is not included when determining the volume of the wash liquor.
The wash liquor may comprise 40 liters or less of water, or 30 liters or less of water, or 20 liters or less of water, or 10 liters or less of water, or 10 liters or less of water, or 8 liters or less of water, or even 6 liters or less of water. The washing liquor may comprise more than 0 to 15 liters, or 2 liters, and 12 liters, or up to 8 liters of water. Typically, it is dosed from 0.01 kg to 2 kg of fabric per liter of wash liquor in the wash liquor. Typically, they are dosed 0.01 kg, or 0.05 kg, or 0.07 kg, or 0.10 kg, or 0.15 kg, or 0.20 kg, or 0.25 kg of fabric per liter of wash liquor in the wash liquor . Optionally, it gets in contact with water 50 or less, or 45 or less, or 40 or less, or 35 or less, or 30 or less, or 25 or less, or 20 or less, or even 15 or less, or even 10 g or less of the composition to form the wash liquor.
Method of use
Certain consumer products described in the present description can be used to clean or treat a site among others a surface or fabric. Typically, at least a portion of the site is contacted with an embodiment of the consumer product of the applicants, in pure form or diluted in a solution, for example, a washing solution and, optionally, the site can then be wash and / or rinse. In a
aspect, a site is washed and / or rinsed, optionally, contacted with an aspect of the consumer product and, optionally, washed and / or rinsed. For the purposes of the present invention, washing includes, but is not limited to, scrubbing and mechanical agitation. The fabric can comprise almost any fabric that can be washed or treated under normal conditions of use for consumption. Liquors which may comprise the compositions described may have a pH of from about 3 to about 1.5. The compositions are typically employed in concentrations of about 500 ppm to about 15,000 ppm in solution. When the wash solvent is water, the temperature typically ranges from about 5 ° C to about 90 ° C and, when the site comprises a fabric, the water to fabric ratio is typically from about 1: 1 to about 30: 1 A treated site is obtained by using one or more of the methods mentioned above.
Examples
The following examples are provided to more fully illustrate the bluing agents of the present invention; however, they should not be construed as limiting the invention as defined in the claims appended hereto. In fact, it will be apparent to those skilled in the industry that various changes and modifications can be made to this invention without deviating from the spirit or scope of it. All parts and percentages given in these examples are by weight, unless otherwise indicated.
Sample preparation and test methods
A. Sample preparation
The following bis-azo dyes are prepared as described in
present invention. The visible ultraviolet (UV) spectrum of each dye is determined by dissolving it in a suitable solvent, typically water or methanol, at a concentration that provides an absorbance at a maximum lambda factor of less than 1.0 at a path length of 1.0 cm. A Beckman Coulter DU 800 spectrophotometer was used to measure the visible UV spectrum and determine the maximum lambda factor ("Amax") of each sample.
Example 1
In an aqueous suspension of 1.68 grams of p-acetamidobenzenesulfonyl chloride cooled to 15-20 ° C is added 8.15 grams of 3- (2- (2-hydroxyethoxy) ethoxy) propylamino at a sufficient rate to maintain the temperature below 20 ° C. The aqueous solution of sodium hydroxide is added as necessary to maintain the pH > 7. After 2 hours of stirring, the reaction is completed and 50 ml of concentrated hydrochloric acid are added, and the mixture is refluxed until the infrared spectrum indicates that the acetyl group has been divided. The mixture is cooled to 0-5 ° C and 3.58 grams of sodium nitrite are added to the mixture and then stirred for 2 hours. The resulting diazonium salt is added to the cooled solution of 6.85 grams of 2-methoxy-5-methylaniline in dilute aqueous hydrochloric acid, resulting in an intense orange-red product. This product is further diazotized at 0-5 ° C by adding 3.58 grams of sodium nitrite with additional hydrochloric acid as necessary to maintain the pH < 2. The mixture is stirred for 2 hours. The resulting diazonium salt is added in the cooled aqueous solution (0-5 ° C) of H acid in water containing sufficient sodium hydroxide to dissolve the acid H. The pH of the reaction mixture is maintained at 10-12 during adding the diazonium salt by adding sodium hydroxide solution as needed. This resulted in a solution of the intense violet-colored product represented as Formula BA4 in the present invention. The producer has an Amax of 569 nm in water.
Example 2
The product represented as Formula BA13 in the present invention is prepared in a manner similar to that described in Example 1, except that 7.65 grams of 2,5-dimethoxyaniline substitute 2-methoxy-5-methylaniline. The product has an Amax of 583 nm in water.
Example 3
The product represented as Formula BA31 in the present invention is prepared in a manner similar to that described in Example 1, except that 9.75 grams of N-acetyl-H acid substitute for H. The product has an Amax of 560 nm in water
Example 4
The product represented as Formula BA58 in the present invention is prepared in a manner similar to that described in Example 1, except that 15.75 grams of N-phenyl J acid substitute for H. The product has an Amax of 545 nm in water.
Example 5
The product represented as Formula BA in the present invention is prepared in a manner similar to that described in Example 2, except that 15.75 grams of N-phenyl J acid substitute for H. The product has an Amax of 558 nm in water.
Example 6
The product represented as Formula BA5 in the present invention is prepared in a manner similar to that described in Example 1, except that 8.85 grams of 3- (2- (2-methoxyethoxy) ethoxy) propylamino replace 3- (2 - (2-hydroxyethoxy) ethoxy) propylamino. The product has a hmax of 577 nm in water.
Example 7
The product represented as Formula BA14 in the present invention is prepared in a manner similar to that described in Example 6, except that 7.65 grams of 2,5-dimethoxyaniline substitute 2-methoxy-5-methylaniline. The product has an Amax of 608 nm in methanol.
Example 8
The product represented as Formula BA12 in the present invention is prepared in a manner similar to that described in Example 7, except that 30.70 grams of Surfonamine® B60 replace 3- (2- (2-methoxyethoxy) ethoxy) propylamino. The product has an Amax of 590 nm in water.
Example 9
The product represented as Formula BA2 in the present invention is prepared in a manner similar to that described in Example 6, except that 52.90 grams of Surfonamine® L100 replace 3- (2- (2-methoxyethoxy) ethoxy) propylamino. The product has an Amax of 581 nm in water.
Example 10
The product represented as Formula BA1 1 in the present invention
is prepared in a manner similar to that described for Example 8, except that 52.90 grams of Surfonamine® L100 replace 3- (2- (2-methoxyethoxy) ethoxy) propylamino. The product has an Amax of 578 nm in water.
Example 1 1
To a cold solution (0-5 ° C) of p-polyalkylene oxyphenylamine (27.45 grams in 100 ml of water), which contains sufficient hydrochloric acid to achieve a pH of 1, 3.58 grams of sodium nitrite is added. The mixture is stirred for 2 hours. Then, the mixture is added to a cold solution of 7.65 grams of 2,5-dimethoxyaniline in dilute hydrochloric acid to generate an orange product. This product is additionally diazotized by adding sufficient hydrochloric acid to maintain the pH at 1 and, then, 3.58 grams of sodium nitrite is added. After 2 hours of stirring at 0-5 ° C, the mixture is added to an aqueous solution of 15.85 grams of H acid together with sufficient sodium hydroxide to dissolve the acid H. During the addition of the diazonium salt, the pH it is maintained at 10-12 by the addition of aqueous sodium hydroxide solution. This resulted in a violet-colored product represented as Formula BA18 in the present invention. The product has an Ama) (574 nm in methanol.
Example 12
The product represented as Formula BA15 in the present invention is prepared in a manner similar to that described in Example 2, except that 27.45 grams of p-polyalkylene oxyphenylamine substituted for 3- (2- (2-hydroxyethoxy) ethoxy) propylamino. The product has an Amax of 574 nm in methanol.
Example 13
The product represented as Formula BA17 in the present invention is prepared in a manner similar to that described in Example 2, except that 5.25 grams of diethanolamine replace 3- (2- (2-hydroxyethoxy) ethoxy) propylamino. The product has an Amax of 581 nm in water.
Example 14
The product represented as Formula BA1 in the present invention is prepared in a manner similar to that described in Example 1, except that 35.75 grams of Jeffamine® M715 replace 3- (2- (2-hydroxyethoxy) ethoxy) propylamino. The product has an Amax of 578 nm in water.
Example 15
The product represented as Formula BA28 in the present invention is prepared in a manner similar to that described in Example 3, except that 35.75 grams of Jeffamine® M715 replaces 3- (2- (2-hydroxyethoxy) ethoxy) propylamino. The product has an Amax of 563 nm in water.
Example 16
The product represented as Formula BA55 in the present invention is prepared in a manner similar to that described in Example 4, except that 35.75 grams of Jeffamine® M715 replaces 3- (2- (2-hydroxyethoxy) ethoxy) propylamino. The product has an Amax of 545 nm in methanol.
Example 17
The product represented as Formula BA34 in the present invention is prepared in a manner similar to that described in Example 3, except that 3.65 grams of diethylamine replace 3- (2- (2-hydroxyethoxy) ethoxy) propylamino. The product has an Amax of 560 nm in water.
Example 18
The product represented as Formula BA61 in the present invention is prepared in a manner similar to that described in Example 17, except that 15.75 grams of N-phenyl J acid substitute for N-acetyl-H acid. The product has an Amax of 551 nm in methanol.
Example 19
The product represented as Formula BA7 in the present invention is prepared in a manner similar to that described in Example 17, except that 15.90 grams of H acid substitute for N-acetyl-H acid. The product has an Amax of 599 nm in methanol.
The bis-azo dyes set forth in Table A correspond, generally, to Structure (II) and are prepared in accordance with the methods described in the present invention.
Table A: Bis-azo dyes
The Surfonamine® and Jeffamine® products are amino-terminated polyalkylenoxy ethers available from Huntsman Corporation of The Woodlands, Texas, which have the following general structure:
For Example 1 1, which corresponds, generally, to Structure (I), = OCH 3, R 2 = OCH 3, R 3 = 6-substituted Acid H and X = p-polyalkylenenoxyphenylazo.
The chemical names for the corresponding dyes of Table A are given, respectively, in Table B below. The chemical names are determined with ChemDraw Ultra; version 7.0.1, available from CambridgeSoft,
Cambridge, Mass., United States.
Table B: Chemical names of bis-azo dyes
In the present invention, structural representations of Examples 1 to 19 are provided.
B. Test methods
I. Method for determining molar absorptivity (e)
The molar absorptivity is determined by dissolving a known amount of the compound in a suitable solvent and measuring the absorbance of the solution in an ultraviolet-visible spectrophotometer. The absorptivity is calculated by dividing the absorbance by the molar concentration in moles / liter and the path length, which is typically one centimeter.
Fabric washing: Each dyeing is performed in a simulated fabric wash
CW120 (453.6 g (16 oz) of white cotton interwoven knitted fabric, 270 g / square meter, polished with Uvitex BNB fluorescent brightening agent, from Test Fabrics, PO Box 26, Weston, PA, 18643) by the use of Typical conditions for North American high-power laundry detergent ("NA HDL" or "HDL") (788 ppm, 20 ° C, 6 gpg 3: 1 Ca: Mg, 30: 1 ratio solution: fabric , 30 minutes) in six dilutions, with the maximum absorbance value in wash water established near 1.0. The fabrics are rinsed once for 5 minutes and allowed to air dry.
The values L *, a * and b * are measured on each fabric (four internal replicas for each wash condition) by using a Hunter LabScan XE reflectance spectrophotometer with D65 illumination, not including 10 ° observer and UV filter, and the difference values are calculated in comparison with an HDL reference without dye.
II. Method to determine the specific deposition (AbsAb -2)
From the absorbance graph of wash solution vs. Ab *, the absorbance of wash solution necessary to supply Ab * of -2.0 in the fabric is determined by linear interpolation of the two data points that enclose the Ab *
objective.
I I I. Method to determine the relative tonality angle (9R) V the absolute tonality angle (T?)
From a graph of Aa * vs. Ab * for each concentration point of a given compound, the value Aa * to Ab * = -2.0 is determined by interpolation of the two data points i enclosing Ab * = -2.0. The relative tonality value 9R is then calculated as
270 + arctan (I AaVAb * I) for the positive values of Aa * and 270 - arctan (| AaVAb * |), when Aa * is negative. :
The value Aa * a Ab * = -2.0 is added to the value a *, and -2.0 is added to the b * value of a tracer fabric washed in HDL without dye (a * = 2.0; b * = -15.5; average of 24 replicas). The absolute tonality value is determined at the concentration of dye supplied by Ab * = -2.0, with a * dye and b *, as defined below:;
á * tínte = a * tracer + Aa * tínte = 2.0 + Aa * dye
b * tntente = b * plotter + Ab * tntente = "1 5.5 + (-2.0) = -1 7.5.
I
The absolute tonality angle T? is calculated as 270 + arctan (| a * dye / b * time |) for the positive values of a * dye and 270 - arctan (| a *, ¡nte / b *, ?? { ß |), when a *, it is negative.
IV. Method to determine the surface color
The surface color of an article can be quantified by using a series of measurements (L *, a * and b *) generated when measuring the samples with a spectrophotometer. The equipment used for this test is a Gretag Macbeth Color Eye 7000A spectrophotometer. The software program used is "Color match". "L" is a measure of the amount of white or black in a sample; the highest values of "L"
indicate a lighter color sample. A measure of the amount of red p green in a sample is determined by the values of "a *". A measure of the amount of blue or yellow in a sample is determined by the values of "b *"; the lowest (most negative) values of b * indicate more blue in a sample.
V. Method to determine the tonalizing efficiency for detergents a. ) Two 25 cm x 25 cm fabric samples of 453.6 g are obtained
(16 oz) of interwoven knitted cotton fabric (270 g / square meter, polished with a fluorescent brightening agent Uvitex BNB, from Test Fabrics, P.O. Box 26, Weston, PA, 18643).
b. ) Two aliquots of one liter of tap water are prepared with 1.55 g of high performance liquid (HDL) standard AATCC as shown in Table 3.
c. A sufficient amount of dye to be tested is added to one of the aliquots of Step b.) Above to produce an absorbance of the aqueous solution of 1 AU.
d. ) A sample of a) above is washed in one of the aliquots of water containing 1.55 g of high performance liquid test (HDL) detergent standard AATCC and the other sample is washed in the another aliquot. This washing step should be carried out for 30 minutes at room temperature with stirring. After the washing step, the samples are rinsed separately with tap water and air-dried in the dark.
and. ) After rinsing and drying each sample, the tonalizing efficiency, DE * e (f, of the dye is evaluated when determining the L *, a *, and b * value measurements of each sample with the use of a Hunter LabScan reflectance spectrophotometer. XE with D65 lighting, not including the 10 ° observer and the UV filter, then calculate the tonalizing efficiency of the dye using the equation:
DE% "= ((? - L%) 2 + (a * c - a%) 2 + (b * c - b%) 2) 1/2
wherein the cys subscripts respectively refer to the values L *, a * and b * measured in the control, that is, the fabric sample washed in the detergent without colorant, as well as the fabric sample washed in the detergent containing the dye that; It will be identified.
Method to determine the removal capacity
to. ) Two separate aliquots of 150 ml of the HDL detergent solution shown in Table 1 are prepared in accordance with Test Method AATCC 61-2003, Test 2A and with 1.55 g / liter of the formula AATCC HDL in distilled water.
b. ) A 15 cm x 5 cm sample of each cloth sample from the method to determine the tonalizing efficiency for the detergents described above is washed in a laboratory washer Launderometer for 45 minutes at 49 ° C in 150 ml of the prepared HDL detergent solution in accordance with stage II. a.) previous. | c. ) The samples are rinsed with separate aliquots of rinse water and allowed to air dry in the dark, and then measurements of the L *, a * and b * values of each sample are obtained with a Hunter LabScan XE reflectance spectrophotometer. with D65 lighting, not including the 10 ° observer and the UV filter. The amount of residual coloration is evaluated by measuring the DE * res, which is calculated by means of the following equation:
DE * res = ((L * c - L * s) 2 + (a * c - a%) 2 + (b * c - b%) 2) 1 2
wherein the subscripts c and s, respectively, refer to the values L *, a * and b * measured in the control, that is, the fabric sample initially washed in the detergent without colorant, as well as the fabric sample initially washed in the Detergent containing the colorant to be identified. Then the wash removal value is calculated for the dye, in accordance with the formula:% removal = 100 x (1 - DE * res / DE * eff).
Vile. Method to determine the staining ability
In this process three types of fabric are used to determine the propensity of a dye dissolved in a detergent matrix to stain the fabric in a manner similar to a pretreatment condition of clothes in the home. The three main fibers examined are cotton, nylon and spandex (a synthetic polymer with urethane blocks) comprising the following fabrics:
453.6 g (16 oz) interwoven knit cotton fabric (270 g / square meter, polished with Uvitex BNB fluorescent brightening agent, obtained from Test Fabrics PO Box 26, Weston, PA, 18643), 178.6 g (6.3 oz. ) 90% cotton / 10% Lycra®, no. of article CLF, obtained from Dharma Trading Co., 1604 Fourth St. San Rafael, CA 94901,
80% nylon / 2 0% Spandex, no. of item 983684GN, obtained from
Hancock Fabrics, One Fashion Way, Baldwyn, Mississippi 38824.
A circle 2.54 cm (one inch) in diameter from each stained detergent sample was obtained with a template and labeled with the identification of the dye on the test fabrics with an acrylic ink textile marker that nb stain (textile marker TEXPEN manufactured by Mark-tex Corp., Englewood, NJ 07631).
The test fabrics were placed on top of a sheet of paper with plastic backing or, alternatively, a single layer of paper towel on aluminum foil, and stained at intervals of 16 hours, 1 hour and 15 minutes. The staining was done by placing approximately 0.5 g of the dyed detergent on the fabric allowing it to penetrate it, while the excess was absorbed by the sheet, so that the circular test area was saturated with the detergent without spreading to the circles of adjacent test. Due to the possible discoloration by light of the dyes, they were placed in a covered area to avoid direct exposure to light, but without preventing the air from passing through the fabrics. The spots of the 16 hours were applied during the afternoon while the samples of 1 hour and 15 minutes were stained the following morning before washing. The approximate total amount of detergent applied is calculated by multiplying the total number of stained areas by the amount of detergent supplied for each stain. If this amount exceeds the recommended dose for the detergent, then the total amount of detergent should be divided by the recommended dose to determine the amount of wash loads in which to distribute the stained fabrics. If the stained fabrics reach to cover the total recommended amount of detergent for a load, then the detergent balance is filled with Tide Free detergent (without dye).
The pretreated fabrics are washed in a full-scale Kenmore top-loading washer with 2.5 kg (5.5 lb) of terrycloth cloths used as a ballast in
average North American conditions of 64.4 liters (17 gallons) of 32.2 ° C (90 ° F) /0.1 grams per liter (6 grains per gallon) of hard wash water with a 15.6 ° C (60 ° F) rinse / 0.1 gram per liter (6 grains per gallon) of water with hardness. Once the wash is finished, the test fabrics are dried with the ballast in a forced hot air dryer at maximum temperature for 60 minutes, or until they are completely dry.
The areas of spots enclosed in a circle were analyzed with a Hunter Colorquest or Labscan XE with D65 illumination, not including UV filter and with a port opening of 1 .3 cm (0.5"). A pretreated control stain without dye was used as reference standard of the instrument to calculate the DE * because the detergent contains polish The visual evaluation is carried out under fluorescent light with a white paper (brightness 92) as a background under the sample The DEVE visual scale allows the communication of the intensity of the stain in a non-technical way.
DEVEscale visual:
< 1 = 0 No visible spots
1 - . 1 - 2.5 = 1 Area slightly whitish
2. 5 - 5 = 2 Light but visible spot
5 - . 5 - 10 = 3 Stain clearly visible
Test results
Test 1: Determination of the components of bis-azo dyes
Table 1: The entities A. B and C used to construct the bluing agents A-N = N-B- N = N-C
Test 2: Determination of molar absorptivity of bis-azo dyes
The molar absorptivity (e) of each example is provided in the
Table 2
Table 2: Molar absorptivity of bis-azo dyes
Test 3: Deposition determination and hue angle
Table 3 provides the deposition and hue angle for Examples 1 to 19. The data was classified by the variation in Components A, B and C, as previously determined.
Components A, B and C, as previously determined
Example 1 1 1 4 0.0463 274.2 250.7 io Vicn ear i Example 3 2 1 4 0.0170 277.2 275.7
Example 4 3 1 4 0.0341 286.2 327.2
Example 19 1 1 7 0.0375 273.9 248.2
Example 17 2 1 7 0.0245 275.7 262.9
Example 18 3 1 7 0.0181 279.4 294.2
Example 2 1 2 4 0.0345 273.6 245.8
Example 5 3 2 4 0.0140 276.8 272.9
256. 0
Example 9
1 1 2 0.0562 274.9
Example 10 2 2 0.1223 274.6 253.3
1
m Example 1 1 1 4 0.0463 274.2 250.7 c
Example 2 2 4 0.0345 273.6 245.8
1
Example 6 1 1 5 0.0209 274.9 256.0
Example 7 2 5 0.0255 272.9 241 .2
1
Example 4 3 1 4 0.0341 286.2 327.2
Example 5 3 2 4 0.0140 276.8 272.9
Example 14 0.0778 274.9 256.0 Example 14 0.0748 274.9 256.0 Example 9 0.0562 274.9 256.0 Example 1 0.0463 274.2 250.7 Example 6 0.0209 274.9 256.0 Example 19 0.0375 273.9 248.2
Example 10 1 2 2 0.1223 274.6 253.3
Example 8 1 2 3 0.0925 272.3 237.0
Example 2 1 2 4 0.0345 273.6 245.8
Example 7 1 2 5 0.0255 2 / 2.9 241.2 Example 12 1 2 6 0.0347 274.2 250.7
Example 13 1 2 8 0.0409 272.0 235.0
Example 11 1 2 9 0.0905 274.9 256.0
Example 15 2 1 1 0.0584 277.2 275.7
Example 3 0.0170 277.2 275.7
2 1 4
Example 3 0.0168 275.9 264.3
Example 17 2 1 7 0.0245 275.7 262.9
Example 16 3 1 1 0.0436 282.9 315.0
Example 4 3 1 4 0.0341 286.2 327.2
Example 18 3 1 7 0.0181 279.4 294.2
In relation to the data included in Table 3, the absolute tonality angle describes the actual tonality angle of the fabric on the plane a *, b *. This is the angle that the consumer actually sees when he watches the fabric. The relative tonality angle is determined in comparison to a tracer cloth washed in HDL without dye (ie, the same detergent, but without dye) and, therefore, provides movement within the plane a *, b * in relation to the control without dye.
Therefore, the bluing agent of the present invention can have an absolute tonality angle in the range of 265 ° to 310 °, from 265 ° to 300 °, from 265 ° to 295 °, from 270 ° to 295 °, from 270 ° to 290 ° or even in the range of 273 ° to 287 °.
Illustrative detergent formulations
Formulations 1 to 11: Liquid detergent formulations
Tables 4A and 4B provide examples of liquid detergent formulations that include at least one bluing agent of the present invention. The formulations are shown in Table 4A as Formulations 1 a to 1f and in Table 4B as Formulations 1 g to 11.
Table 4A - Liquid detergent formulations comprising the bluing agent of
Table 4B - Liquid detergent formulations comprising the bluing agent of the invention
Footnotes for Formulations 1 a-l:
1 diethylenetriaminepentaacetic acid, sodium salt
2 diethylenetriaminepentamethylenephosphonic acid, sodium salt
3 diethylenetriaminepentaacetic acid, sodium salt
4 A colorless dye or mixture of these used to adjust the color of the formula
5 Compact formula, packaged as a unit dose in polyvinyl alcohol film
6 Bis-azo dyes selected from Examples 1 to 19, preferably with tonalizing efficiency > 10 and wash removal from 30 to 85%
7 Acusol OP301
Formulations 2a - 2e: Granular detergent formulations
Tables 5a and 5b provide examples of granular detergent formulations that include at least one bluing agent of the present invention. The formulations are shown in Table 5a as Formulations 2a to 2e.
Table 5a - Granular detergent formulations comprising the bluing agent of the invention
The bis-azoic dyes selected from Examples 1 to 19, preferably, tonalizing efficiency > 10 and wash removal from 30 to 85%.
Table 5b - Granular detergent formulations comprising the bluing agent of the invention
Illustrative compositions for the care of fabrics
Formulations 3a-3d: Liquid compositions for the care of fabrics Table 6 provides examples of liquid compositions for the care of fabrics including at least one bluing agent of the present invention. The compositions are shown in Table 6 as Formulations 3a to 3d.
Table 6 - Liquid compositions for the care of fabrics comprising the bluing agent of the invention
a N, N-di (tallowoyloxyethyl) -N, N-dimethyl ammonium chloride.
b Cationic starch based on potato starch or common corn starch, containing 25% to 95% amylose and a degree of substitution of 0.02 to 0.09 and having a viscosity measured as water fluidity with a value of 50 to 84 .
c Ethylene oxide-terephthalate copolymer with the formula described in US Pat. UU no. 5,574,179 in col. 15, lines 1 -5, where each X is methyl, each n is 40, u is 4, each R is practically 1,4-phenylene entities, each R2 is practically ethylene, 1, 2- propylene, or mixtures of these.
d Diethylenetriaminepentaacetic acid.
e KATHON® CG available from Rohm and Haas Co.
'Antifoam silicone agent available from Dow Corning Corp. under the trade name DC2310.
9,4,4-bis- (2-sulphotrisyl) biphenyl disodium, available from Ciba Specialty Chemicals.
^ Cocometyl ammonium chloride ethoxylate [15], distributed by Akzo Nobel.
i Bis-azo dyes selected from Examples 1 to 19, preferably with a tonalizing efficiency > 10 and wash removal from 30 to 85%.
Illustrative compositions of unit dose
Table 7- Liquid detergent compositions in bags
Mono- [2- (3,4-dihydric) -soquinolyl-2-yl) -1- (2-etl-exoxymethyl) -etl] ester of sulfuric acid, as described in US Pat. UU no. 7,169,744
PAP = Phthaloyl-amino-peroxycaproic acid, as a wettable tablet active at 70%.
Ethoxylated thiophene, EO (Ri + R2) = 5
RA = reserve alkalinity (g of NaOH / dose)
Thus, the present invention provides a bluing agent for textile and / or paper substrates comprising at least one chromophore component, comprising a bis-azo dye and at least one polymer component. In the present invention there is further contemplated a laundry detergent composition and a fabric softener for use in the rinse containing said bluing agent.
While particular aspects of the present invention have been illustrated and described, it will be apparent to those skilled in the industry that various changes and modifications can be made without departing from the spirit and scope of the invention. Therefore, it has been intended to encompass in the appended claims all changes and modifications that are within the scope of this invention.
The dimensions and values described in the present description should not be construed as strictly limited to the exact numerical values mentioned. Instead, unless otherwise specified, each of these dimensions will mean both the aforementioned value and a functionally equivalent range that includes that value. For example, a dimension described as "40 mm" refers to "approximately 40 mm".
All documents cited in the present description, including all
Cross reference or related application or patent, are incorporated in their entirety in the present description as a reference unless they are expressly excluded or limited in any other way. If any document is mentioned it should not be construed as admitting that it constitutes a prior art with respect to any invention described or claimed in the present description, or that independently or in combination with any other reference or references, instructs, suggests or describes such invention. In addition, to the extent that any meaning or definition of a term in this document contradicts any meaning or definition of the term in a document incorporated as a reference, the meaning or definition assigned to the term in this document shall govern.
Claims (13)
- CLAIMS 1. A laundry care composition comprising an ingredient for washing clothes and a bluing agent comprising: (a) at least one chromophore component comprising a bio-azo dye, and (b) at least one polymer component or substituted sulfonamide component; characterized in that the bluing agent has the following structure: where: and R2 are independently H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, urea or amido; R3 is a substituted aryl group which may be a substituted phenyl or naphthyl entity; X is a substituted oxygen, a substituted or unsubstituted amino, or a substituted or unsubstituted sulfonamide group, characterized in that the substituents are selected from the group consisting of alkyl, alkylenoxy, polyalkylenoxy or phenyl entities, wherein the phenyl group may be further substituted with alkyl, alkylenoxy or polyalkylenoxy entities. 2. A composition according to claim 1, further characterized in that in the bluing agent, R: and R2 are independently selected from the group consisting of H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap and amido. 3. A composition according to claim 1 or 2, further characterized in that in the bluing agent, it is an alkoxy group and F½ is an alkyl or alkoxy group. 4. A composition according to any of the preceding claims, further characterized in that the bluing agent comprises a polyoxyalkylene chain having from 2 to 30, preferably, from 2 to 10 repeating units. 5. A composition according to any of the preceding claims, further characterized in that in the bluing agent X is a substituted group comprising a sulfonamide entity and, optionally, an alkyl and / or aryl entity, and wherein the substituent group comprises at least an alkyleneoxy chain comprising at least 4 alkyleneoxy entities. 6. The laundry washing composition according to any of the preceding claims, further characterized in that the bluing agent comprises an alkoxylated bis-azoic polymer dye. 7. The composition for washing clothes according to any of the preceding claims, further characterized in that the chromophore of the bluing agent exhibits a maximum absorbance spectrum in water of 520 nanometers to 640 nanometers, preferably, of 560 nanometers to 610 nanometers. 8. The laundry washing composition according to any of the preceding claims, further characterized in that the bluing agent exhibits an absolute tonality angle in a range of 265 ° to 310 °, preferably, 273 ° to 287 °. 9. The composition for washing clothes according to any of the preceding claims, further characterized in that the bluing agent has the following structure: where: Ri and R2 are, independently, H, alkyl, alkoxy, alkyleneoxy, alkyleneoxy with alkyl cap, polyalkylenoxy, polyalkyleneoxy with alkyl cap, or amido; W is a substituted amino entity; U is a hydrogen, an amino group or an amino group substituted with an acyl group; And it is a hydrogen or a sulfonic acid entity; Y Z is a sulfonic acid entity or an amino group substituted with a phenyl group. 10. The laundry washing composition according to claim 9, further characterized in that R 1 is alkoxy and R 2 is alkyl. eleven . The laundry washing composition according to any of the preceding claims, further characterized in that the composition comprises bleach enhancing compounds having the following general structure: wherein R1-R4 may be a hydrogen or a substituted or unsubstituted radical selected from the group consisting of phenyl, aryl, heterocyclic ring, alkyl and cycloalkyl radicals. 12. The laundry washing composition according to any of the preceding claims, further characterized in that the composition comprises dye transfer inhibiting agents. 13. The laundry washing composition according to any of the preceding claims, further characterized in that it is a free flowing solid particulate laundry detergent composition, a liquid laundry detergent composition or a liquid fabric improver composition for use in the rinse, optionally, in the form of a unit dose.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12/910,258 US20120101018A1 (en) | 2010-10-22 | 2010-10-22 | Bis-azo colorants for use as bluing agents |
PCT/US2011/057290 WO2012054835A1 (en) | 2010-10-22 | 2011-10-21 | Bis-azo colorants for use as bluing agents |
Publications (2)
Publication Number | Publication Date |
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MX2013004459A true MX2013004459A (en) | 2013-06-05 |
MX357341B MX357341B (en) | 2018-07-04 |
Family
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Application Number | Title | Priority Date | Filing Date |
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MX2013004460A MX357342B (en) | 2010-10-22 | 2011-10-21 | Low built detergent composition comprising bluing agent. |
MX2013004459A MX357341B (en) | 2010-10-22 | 2011-10-21 | Bis-azo colorants for use as bluing agents. |
MX2013004462A MX357338B (en) | 2010-10-22 | 2011-10-21 | Detergent composition comprising bluing agent and clay soil removal / anti-redeposition agent. |
MX2013004463A MX357388B (en) | 2010-10-22 | 2011-10-21 | Detergent composition comprising bluing agent and clay soil removal / anti-redeposition agent. |
MX2013004461A MX357340B (en) | 2010-10-22 | 2011-10-21 | Detergent composition comprising bluing agent and rapidly water-soluble brightener. |
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MX2013004460A MX357342B (en) | 2010-10-22 | 2011-10-21 | Low built detergent composition comprising bluing agent. |
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MX2013004462A MX357338B (en) | 2010-10-22 | 2011-10-21 | Detergent composition comprising bluing agent and clay soil removal / anti-redeposition agent. |
MX2013004463A MX357388B (en) | 2010-10-22 | 2011-10-21 | Detergent composition comprising bluing agent and clay soil removal / anti-redeposition agent. |
MX2013004461A MX357340B (en) | 2010-10-22 | 2011-10-21 | Detergent composition comprising bluing agent and rapidly water-soluble brightener. |
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US (7) | US20120101018A1 (en) |
EP (5) | EP2630225A1 (en) |
JP (2) | JP5833130B2 (en) |
CN (6) | CN103180424B (en) |
AR (1) | AR083503A1 (en) |
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CA (1) | CA2815479C (en) |
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PL (1) | PL2630229T3 (en) |
WO (5) | WO2012054827A1 (en) |
ZA (1) | ZA201302890B (en) |
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